CN219305828U - Orange is planted with novel deinsectization lamp - Google Patents

Abstract

The utility model discloses a novel insect killing lamp for citrus planting, which comprises a power grid barrel, a top cover, an insect trapping lamp and a collecting box, wherein in a fruit forest of citrus, in order to kill mosquitoes, when the novel insect killing lamp is used, the insect killing lamp is used for attracting outside mosquitoes, a part of the mosquitoes are impacted on a first power grid of the power grid barrel, the other part of the mosquitoes pass through the first power grid to enter the inside of the power grid barrel, electric shock is applied to a third power grid, then the mosquitoes are adsorbed downwards under the action of a negative pressure component in the collecting box, and then the mosquitoes are thoroughly killed through the electric shock of a second power grid, and the mosquitoes can be adsorbed by matching with the conventional negative pressure suction, so that the insect killing efficiency is improved, and meanwhile, the insect trapping lamp is convenient to maintain or replace by arranging the openable top cover.

Description

Orange is planted with novel deinsectization lamp

Technical Field

The utility model relates to the technical field of citrus planting, in particular to a novel deinsectization lamp for citrus planting.

Background

The citrus plants of the subgenera of the Rutaceae are warm and moist in nature, have cold resistance slightly stronger than that of pomelo, lime and sweet orange, are one of important origin places of citrus, are rich in citrus resources, are various in good varieties and have cultivation history of over 4000 years. The citrus fruits are precious fruits of human beings after long-term cultivation and selection.

In the large-scale planting of citrus, it is necessary to perform an insect-killing operation on citrus fruit forests. In the related art, publication number CN216164656U discloses a suspension type insect prevention lamp for citrus planting, attracts the mosquito into the lamp holder through the insect trapping lamp, then drops to the insect collecting box under the suction of the negative pressure fan, thereby realizing the deinsectization effect.

However, in practical application, the technical scheme has higher requirement on negative pressure suction, the effect of absorbing mosquitoes with stronger vitality by adopting a negative pressure fan is poor, the insect killing efficiency is low, and in addition, the replacement of the trap lamp is also more inconvenient.

Disclosure of Invention

The utility model provides a novel insect killing lamp for citrus planting, which uses insect trapping lamps as attractants in citrus forests, and can adsorb mosquitoes by arranging power grids at a plurality of positions and matching with conventional negative pressure suction, so that insect killing efficiency is improved, and meanwhile, an openable top cover is arranged, so that the insect trapping lamps can be conveniently replaced.

The utility model is realized by the following technical scheme:

a novel pest killing lamp for citrus planting comprises a power grid barrel, a top cover, a pest trapping lamp and a collecting box;

the side wall of the power grid cylinder is covered with a first power grid, and the bottom of the power grid cylinder is provided with a second power grid;

the top cover is covered on the top of the power grid cylinder;

the trap lamp is arranged at the bottom of the top cover, a third power grid is arranged around the trap lamp, and the third power grid is detachably connected to the top cover;

the collecting box is connected with the bottom of the power grid cylinder, a negative pressure assembly is arranged on the collecting box, a negative pressure connector is arranged on the collecting box, a filter screen is arranged at the negative pressure connector, and the input end of the negative pressure assembly is communicated with the negative pressure connector.

Further, the top cover is connected with the power grid cylinder through bolts; or, one end of the top cover is rotationally connected with the power grid cylinder, and the other end of the top cover is connected with the power grid cylinder through a buckle.

Further, the negative pressure assembly comprises a negative pressure pump, a negative pressure fan or a negative pressure fan.

Further, the collection box is detachably connected to the top of the grid cylinder.

Further, a sealing door which can be opened and closed is arranged at the bottom of the collecting box.

Further, a collecting frame is coaxially connected to the outer side wall of the lower portion of the power grid cylinder.

Further, the inner wall of the collecting frame is covered with adhesive paper.

Further, the pest killing lamp further comprises a solar power supply, and the solar power supply is respectively and electrically connected with the first power grid, the second power grid, the third power grid, the pest trapping lamp and the negative pressure component.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

the insect killing lamp comprises a power grid barrel, a top cover, an insect trapping lamp and a collecting box, wherein in a fruit forest of citrus, in order to kill mosquitoes, when the insect killing lamp is used, the insect trapping lamp is used for attracting the outside mosquitoes, a part of the mosquitoes are killed on a first power grid of the power grid barrel, the other part of the mosquitoes pass through the first power grid to enter the inside of the power grid barrel, electric shock is conducted at a third power grid, then the mosquitoes are adsorbed downwards under the action of a negative pressure component in the collecting box, the mosquitoes are thoroughly killed by the electric shock of a second power grid, and the mosquitoes can be adsorbed by matching with the conventional negative pressure suction force, so that the insect killing efficiency is improved, and meanwhile, the top cover which can be opened is convenient for maintenance or replacement of the insect trapping lamp.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a novel pest control lamp for citrus planting according to an embodiment of the utility model.

In the drawings, the reference numerals and corresponding part names:

10-a power grid cylinder; 11-a first power grid; 12-a second grid; 13-a collection frame; 14-sticking paper;

20-top cover; 21-a third grid; 22-snap; 23-tying the rope;

30-trap lamp;

40-collecting box; 41-negative pressure interface; 42-filtering net; 43-sealing the door;

50-negative pressure assembly.

Detailed Description

As described in the background art, the citrus plants of the lower genus of the Rutaceae family are good for warm and humid climate, have slightly stronger cold resistance than pomelo, lime and sweet orange, are one of important origin places of citrus, are rich in citrus resources, have various excellent varieties and have cultivation history of over 4000 years. The citrus fruits are precious fruits of human beings after long-term cultivation and selection.

In the large-scale planting of citrus, it is necessary to perform an insect-killing operation on citrus fruit forests. In the related art, publication number CN216164656U discloses a suspension type insect prevention lamp for citrus planting, attracts the mosquito into the lamp holder through the insect trapping lamp, then drops to the insect collecting box under the suction of the negative pressure fan, thereby realizing the deinsectization effect.

However, in practical application, the technical scheme has higher requirement on negative pressure suction, the effect of absorbing mosquitoes with stronger vitality by adopting a negative pressure fan is poor, the insect killing efficiency is low, and in addition, the replacement of the trap lamp is also more inconvenient.

Based on the above, the inventor creates a novel pest control lamp for citrus planting, so as to solve the technical problems.

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model.

Examples

Referring to fig. 1, a novel pest control lamp for citrus planting includes a power grid barrel 10, a top cover 20, a trap lamp 30 and a collecting box 40. Here, the grid cylinder 10 is cylindrical and hollow. The side wall of the power grid cylinder 10 is covered with a first power grid 11, and the bottom of the power grid cylinder 10 is provided with a second power grid 12. The top cover 20 covers the top of the power grid cylinder 10. For example, hooks, ligatures 23, etc. may also be provided on top of the cap 20 for securing to a citrus tree or other stand.

The trap lamp 30 is installed at the bottom of the top cover 20, and a third power grid 21 is installed around the trap lamp 30, and the third power grid 21 is detachably connected to the top cover 20. For example, the trap lamp 30 may be installed at the bottom center of the top cover 20 while being on the central axis of the grid cartridge 10.

The collection box 40 is connected with the bottom of the power grid cylinder 10, a negative pressure assembly 50 is installed on the collection box 40, a negative pressure joint 41 is formed in the collection box 40, a filter screen 42 is arranged at the negative pressure joint 41, and the input end of the negative pressure assembly 50 is communicated with the negative pressure joint 41. Here, the filter screen 42 serves to block the passage of the mosquitoes, so that the air in the collecting box 40 is sucked out, thereby forming an internal negative pressure space, which has a certain attraction to the mosquitoes above.

The insect killing lamp comprises a power grid barrel 10, a top cover 20, a trap lamp 30 and a collecting box 40, wherein in a fruit forest of citrus, in order to kill mosquitoes, when the insect killing lamp is used, the trap lamp 30 is used for attracting the outside mosquitoes, a part of the mosquitoes are impacted on a first power grid 11 of the power grid barrel 10, the other part of the mosquitoes pass through the first power grid 11 to enter the inside of the power grid barrel 10, electric shock is conducted at a third power grid 21, then the mosquitoes are adsorbed downwards under the action of a negative pressure component 50 in the collecting box 40, and then the mosquitoes are thoroughly killed through the electric shock of a second power grid 12, and the mosquitoes can be adsorbed by matching with the conventional negative pressure suction, so that the insect killing efficiency is improved, and meanwhile, the maintenance or replacement of the trap lamp 30 is facilitated by arranging the openable top cover 20.

In further embodiments, the top cover 20 is bolted to the grid cylinder 10; or, one end of the top cover 20 is rotatably connected to the power grid cylinder 10, and the other end is connected to the power grid cylinder 10 through a buckle 22. The arrangement is simple in connection between the top cover 20 and the power grid cylinder 10, simple and convenient to manufacture and low in cost.

In further embodiments, the negative pressure assembly 50 comprises a negative pressure pump, a negative pressure fan, or a negative pressure blower. The negative pressure pump, the negative pressure fan or the negative pressure fan are common negative pressure generating devices, and the cost is low.

In further embodiments, the collection box 40 is removably attached to the top of the grid cartridge 10. For example, the collection box 40 is screwed to the grid cartridge 10. So set up, conveniently regularly pour piled up mosquito.

In a further embodiment, the bottom of the collection box 40 is provided with an openable and closable sealing door 43. So set up, still accessible sealing door 43 pours piled up mosquito, more nimble.

In a further embodiment, a collecting frame 13 is connected coaxially to the lower outer side wall of the grid cylinder 10. So configured, mosquitoes shocked by the first power grid 11 can be collected.

In a further embodiment, the inner wall of the collecting frame 13 is covered with adhesive paper 14. So arranged, mosquitoes which are stunned but not killed by the first power grid 11 can be stuck and killed.

In another embodiment, the pest control lamp further includes a solar power source electrically connected to the first power grid 11, the second power grid 12, the third power grid 21, the pest trapping lamp 30, and the negative pressure assembly 50, respectively. The solar energy is fully utilized to supply power for the whole pest killing lamp, no extra guy wires are needed, and the large-scale arrangement is simpler and more convenient.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. The novel pest killing lamp for citrus planting is characterized by comprising a power grid barrel, a top cover, a pest trapping lamp and a collecting box;

the side wall of the power grid cylinder is covered with a first power grid, and the bottom of the power grid cylinder is provided with a second power grid;

the top cover is covered on the top of the power grid cylinder;

the trap lamp is arranged at the bottom of the top cover, a third power grid is arranged around the trap lamp, and the third power grid is detachably connected to the top cover;

the collecting box is connected with the bottom of the power grid cylinder, a negative pressure assembly is arranged on the collecting box, a negative pressure connector is arranged on the collecting box, a filter screen is arranged at the negative pressure connector, and the input end of the negative pressure assembly is communicated with the negative pressure connector.

2. The novel citrus growing use vermin exterminating lamp of claim 1 wherein said top cover is bolted to said power grid; or, one end of the top cover is rotationally connected with the power grid cylinder, and the other end of the top cover is connected with the power grid cylinder through a buckle.

3. A novel citrus planting light as claimed in claim 1, wherein the negative pressure assembly comprises a negative pressure pump, a negative pressure fan or a negative pressure fan.

4. A novel citrus planting vermin exterminating lamp as in claim 1 wherein the collection box is removably connected to the top of the power grid canister.

5. The novel citrus planting pest control lamp of claim 1, wherein the bottom of the collection box is provided with a sealing door that can be opened and closed.

6. A novel vermin exterminating lamp for citrus planting according to any of claims 1 to 5, wherein a collecting frame is coaxially connected to the lower outer side wall of the power grid barrel.

7. A novel citrus planting vermin exterminating lamp as in claim 6 wherein the inner wall of the collecting frame is covered with adhesive paper.

8. A novel citrus planting pest killing lamp as claimed in any one of claims 1 to 5, wherein the pest killing lamp further includes a solar power source, the solar power source being electrically connected to the first power grid, the second power grid, the third power grid, the pest trapping lamp and the negative pressure assembly, respectively.

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