CN214629273U - Novel mosquito eradication device - Google Patents

Abstract

The utility model discloses a novel kill mosquito device, relate to mosquito killing device's technical field, including the kill mosquito cavity, kill mosquito cavity one side is formed with the opening, and the kill mosquito cavity is close to opening one side and installs the weather shield, the weather shield is the interval setting with the kill mosquito cavity so that form access way between weather shield and the kill mosquito cavity, be equipped with the kill mosquito structure in the kill mosquito cavity, the kill mosquito structure divide into along the direction of height with the kill mosquito cavity and lures the mosquito cavity and lay eggs the cavity, the kill mosquito structure includes suspension and adsorption plate, the suspension is installed in one side that the cavity of laying eggs is close to luring the mosquito cavity, and the suspension is the ring form, the adsorption plate is installed in one side that the suspension is close to luring the mosquito cavity, and the adsorption plate is both ends open-ended cylindricly with suspension looks adaptation, the adsorption plate surface is equipped with the kill mosquito layer. The installation of mosquito eradication device is not restricted by the condition, and the unit mount is simple, need not the power, does not receive daytime night influence, does not receive outside rainwater to wash the influence, low cost, and high-efficient kill mosquito is pollution-free.

Description

Novel mosquito eradication device

Technical Field

The utility model relates to a mosquito eradication device's technical field, more specifically says that it relates to a novel mosquito eradication device.

Background

Because the female mosquito generally produces eggs on the water surface and hatches the eggs into aquatic larvae (wigglers) after two days, the water is the main place for breeding the mosquito. The current environmental sanitation control method mainly adopts a method of artificially putting chemical pesticides into water to kill mosquito eggs in the water.

However, the chemical insecticide is thrown into the water body, which easily causes the pollution of the river channel, and the artificial throwing amount is difficult to control accurately, so that the drug resistance is easy to generate. Meanwhile, other non-target aquatic organisms such as non-mosquito larvae and the like may also constitute a poisoning risk. Thus, there is room for improvement.

SUMMERY OF THE UTILITY MODEL

To this problem in the in-service use, the utility model aims to provide a novel kill mosquito device, concrete scheme is as follows:

the utility model provides a novel mosquito eradication device, includes the kill mosquito cavity, kill mosquito cavity one side is formed with the opening, just the kill mosquito cavity is close to the weather shield is installed to opening one side, the weather shield with the kill mosquito cavity is the interval setting so that the weather shield with form the access way between the kill mosquito cavity, be equipped with the kill mosquito structure in the kill mosquito cavity, the kill mosquito structure will the kill mosquito cavity divide into along the direction of height and lures the mosquito cavity and lay eggs the cavity, the kill mosquito structure includes suspension and adsorption plate, the suspension install in the cavity of laying eggs is close to lure one side of mosquito cavity, just the suspension is the ring form, the adsorption plate install in the suspension is close to lure one side of mosquito cavity, just the adsorption plate with suspension looks adaptation is both ends open-ended cylindric, the adsorption plate surface is equipped with kill mosquito layer.

Further preferably, still include the dead lever, the dead lever sets up kill mosquito cavity periphery, just seted up on the weather shield with dead lever assorted connecting hole, dead lever one end is fixed in ground, and the other end is worn to establish the connecting hole with the weather shield is connected.

Further preferably, one end of the fixing rod, which is away from the rain shield, is arranged at an oblique angle to form an insertion part.

Preferably, the side wall of the mosquito killing cavity is provided with an overflow hole.

Further preferably, follow the opening direction kill mosquito cavity projection in the area of weather shield is less than the self projected area of weather shield.

Further preferably, the locating lever is installed to the suspension periphery, the locating lever can with kill mosquito cavity inner wall butt sets up.

Further preferably, a sealing layer is arranged on one side of the spawning chamber, which is close to the mosquito trapping chamber.

Compared with the prior art, the beneficial effects of the utility model are as follows:

(1) the mosquito receives the running water and lures and draws consumptive material effect, be lured and get into by the access way and lure in the mosquito cavity, and lay eggs on the horizontal plane, can drop on the adsorption plate that is stained with the kill mosquito layer after laying eggs, utilize the kill mosquito layer to disappear and kill the mosquito, the mosquito that does not die can fly out by the access way owing to phototaxis and lure the mosquito cavity, but the mosquito that has contacted the kill mosquito layer can bring the kill mosquito layer of its contact to other breeding water or breeding ground, thereby control or kill more wriggler larvae or the adult of other regions.

(2) The removable new article of suspension and adsorption plate is with used repeatedly mosquito eradication device, and the finished product is lower, takes off the weather shield and can change the simple operation. And the mosquito killing device is not limited by conditions, is simple in integral installation, does not need a power supply, is not influenced by daytime and night, and is not influenced by external rainwater washing.

(3) The surface tension of static water is reduced by the surface covering layer, and mosquitoes fall into the water to be drowned due to the fact that the surface tension is reduced, so that the mosquito killing effect is achieved. Furthermore, mosquito wigglers and pupae breathe through the air holes, and the sealing layer can block the horizontal plane to kill mosquito larvae.

Drawings

Fig. 1 is an overall schematic diagram of an embodiment of the present invention;

FIG. 2 is an overall schematic view showing a connector;

fig. 3 is an overall schematic view of the structure of the outstanding sealing layer of the present invention.

Reference numerals: 1. a mosquito killing cavity; 2. a port; 3. a rain shield; 4. an access passage; 5. a mosquito-trapping chamber; 6. a spawning chamber; 7. a suspension member; 8. an adsorption plate; 9. a mosquito eradication layer; 10. fixing the rod; 11. connecting holes; 12. a plug-in part; 13. an overflow hole; 14. positioning a rod; 15. a cover coat layer; 16. a connecting member; 17. Nails are provided.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the embodiments of the present invention are not limited thereto.

Example one

As shown in fig. 1, a novel mosquito eradication device, including kill mosquito cavity 1 and weather shield 3, kill mosquito cavity 1 can be made by household utensils such as basin, jar, 1, and kill mosquito cavity 1 is the cavity form and one side is formed with opening 2, is equipped with three dead levers 10 in 1 periphery of kill mosquito cavity along 1 circumference of kill mosquito cavity, and dead lever 10 one end is the oblique angle so that form the grafting portion 12 that inserts ground (earth), and dead lever 10 utilizes grafting portion 12 to be fixed in 1 periphery of kill mosquito cavity. Simultaneously, set up three connecting hole 11 with dead lever 10 diameter size looks adaptation on the weather shield 3, weather shield 3 utilizes connecting hole 11 to cup joint on dead lever 10 in order to install in the one side that kill mosquito cavity 1 is close to opening 2. And, dead lever 10 is close to and is equipped with the external screw thread on 3 one end lateral walls of weather shield, and 3 both sides of weather shield all are equipped with adjusting nut, utilize the adjustable interval distance between weather shield 3 and the kill mosquito cavity 1 of adjusting nut to form between messenger's weather shield 3 and the kill mosquito cavity 1 and be used for the mosquito to fly into the access way 4 in the kill mosquito cavity 1. Preferably, along 2 direction kill mosquito cavitys 1 projections of opening in the area of weather shield 3 is less than the self projection area of weather shield 3, and then rainwater gets into kill mosquito cavity 1 inside when avoiding the rainy day.

As shown in fig. 2, the rain shield 3 and the mosquito eradication chamber 1 may be connected into a whole by a connecting member 16 so that the rain shield 3 is fixed to the open end of the mosquito eradication chamber 1 by the connecting member 16. Simultaneously, set up the fixed orifices (sheltered from by nail 17, not shown in the figure) in kill mosquito cavity 1 bottom, thereby wear to establish the fixed orifices through nail 17 and be fixed in ground with kill mosquito cavity 1, nail 17 preferred adoption sealing screw.

Specifically, be equipped with the kill mosquito structure in the kill mosquito cavity 1, the kill mosquito structure will kill mosquito cavity 1 divide into along the direction of height and lure mosquito cavity 5 and lay eggs cavity 6, lures mosquito cavity 5 to be close to opening 2 one side. The spawning chamber 6 is used for loading tap water and inducing materials (such as alfalfa leaves) for inducing mosquitoes, and because female mosquitoes generally lay eggs on the water surface, the tap water and the inducing materials can induce the mosquitoes to enter the mosquito inducing chamber 5 from the access passage 4 and spawn in the spawning chamber 6. In this embodiment, the chamber loaded with tap water is the spawning chamber 6, and the remainder is the mosquito trapping chamber 5.

Further, kill mosquito structure includes suspension 7 and adsorption plate 8, and suspension 7 adopts materials such as foam floatable in the surface of water to make, and suspension 7 is the oval form of ring or other changeable shapes, and adsorption plate 8 adopts electrified non-woven fabrics or other network materials, and adsorption plate 8 is and is cylindric with suspension 7 with the diameter and both ends are the open-ended. The suspension piece 7 is adhered to the end face of the adsorption plate 8 so that the two are integrally cylindrical, the suspension piece 7 is placed on the horizontal plane (namely, the side of the spawning chamber 6 close to the mosquito trapping chamber 5), the adsorption plate 8 is positioned on the side of the suspension piece 7 close to the mosquito trapping chamber 5, and the surface of the adsorption plate 8 is coated with a mosquito killing layer 9 (such as pyrethroid insecticide powder) for inhibiting the growth of mosquitoes. Preferably, the adsorption plate and the mosquito killing layer can be further arranged on the inner side wall of the periphery of the mosquito killing cavity body, so that the contact area of mosquitoes entering the mosquito killing cavity body is increased, and the capture rate is improved.

In order to prevent the suspension piece 7 from unsteady floating on the horizontal plane, a positioning rod 14 made of the same material as the suspension piece 7 is integrally arranged on the periphery of the suspension piece 7 along the circumferential direction of the suspension piece 7, and the suspension piece 7 and the adsorption plate 8 are limited at the center of the horizontal plane by the positioning rod 14. Wherein, for avoiding the kill mosquito structure to exceed kill mosquito cavity 1 or with 3 butts of weather shield, seted up two spillway holes 13 (select the accessory) on kill mosquito cavity 1 lateral wall, spillway hole 13 is used for controlling the running water yield in the cavity of laying eggs 6 to control prevents that the kill mosquito structure from exceeding kill mosquito cavity 1. All designs that center the suspension 7 are within the scope of this patent.

The mosquito receives the running water and lures and draws consumptive material effect, be lured into by access way 4 and lure in the mosquito cavity 5, and lay eggs on the horizontal plane, can drop on the adsorption plate 8 that is stained with the kill mosquito layer after laying eggs, utilize the kill mosquito layer to kill and kill the mosquito, the mosquito cavity 5 is lured in by access way 4 departure because phototaxis not dead mosquito, but the mosquito that has contacted the kill mosquito layer can take other breed waters or foster place with the kill mosquito layer of its contact, thereby control or kill the wriggler larva or the adult of more other regions.

Suspension 7 and the removable new article of adsorption plate 8 are with used repeatedly mosquito eradication device in this embodiment, and the cost is lower, takes off weather shield 3 and can change the simple operation. And the mosquito killing device is not limited by conditions, is simple in integral installation, does not need a power supply, is not influenced by daytime and night, and is not influenced by external rainwater washing.

Example two

As shown in fig. 3, on the basis of the first embodiment, a surface covering material (e.g., polydimethyl silicone oil) is dropped on the horizontal surface to form a surface covering layer 15, the surface covering layer 15 is used to reduce the surface tension of the static water, so that the mosquitoes fall on the surface and fall into the water to be drowned due to the reduced surface tension, thereby killing the mosquitoes. Furthermore, mosquito wigglers and pupae breathe through the air holes, and the sealing layer 15 can block the horizontal plane to kill mosquito larvae. And the front cover consumptive material that this embodiment used can not produce the pollution to the water, can degrade about a month.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A novel mosquito killing device comprises a mosquito killing cavity body (1), wherein one side of the mosquito killing cavity body (1) is provided with an opening (2), and the mosquito killing cavity body (1) is close to one side of the opening (2) and is provided with a rain baffle (3), the rain baffle (3) and the mosquito killing cavity body (1) are arranged at intervals so as to form an access passage (4) between the rain baffle (3) and the mosquito killing cavity body (1), the novel mosquito killing device is characterized in that a mosquito killing structure is arranged in the mosquito killing cavity body (1), the mosquito killing structure divides the mosquito killing cavity body (1) into a mosquito trapping cavity (5) and a spawning cavity (6) along the height direction, the mosquito killing structure comprises a suspension piece (7) and an adsorption plate (8), the suspension piece (7) is arranged on one side of the spawning cavity (6) close to the mosquito trapping cavity (5), and the suspension piece (7) is in a circular ring shape, adsorption plate (8) install in suspension (7) are close to lure one side of mosquito cavity (5), just adsorption plate (8) with suspension (7) looks adaptation is both ends open-ended cylindricly, adsorption plate (8) surface is equipped with kill mosquito layer (9).

2. The novel mosquito killing device as claimed in claim 1, further comprising a fixing rod (10), wherein the fixing rod (10) is arranged at the periphery of the mosquito killing cavity (1), a connecting hole (11) matched with the fixing rod (10) is formed in the rain shield (3), one end of the fixing rod (10) is fixed on the ground, and the other end of the fixing rod (10) penetrates through the connecting hole (11) to be connected with the rain shield (3).

3. A new mosquito eradication device according to claim 2, characterized in that the end of the fixing rod (10) facing away from the rain shield (3) is angled to form a plug-in connection (12).

4. A novel mosquito eradication device according to claim 1, wherein overflow holes (13) are formed in the side wall of the mosquito eradication chamber (1).

5. A new mosquito eradication device according to claim 1, characterized in that the area of the mosquito eradication chamber (1) projected onto the rain shield (3) in the direction of the opening (2) is smaller than the self-projected area of the rain shield (3).

6. The novel mosquito killing device as claimed in claim 1, wherein a positioning rod (14) is installed at the periphery of the suspension piece (7), and the positioning rod (14) can be abutted against the inner side wall of the mosquito killing cavity (1).

7. A novel mosquito eradication device according to claim 1, wherein the spawning chamber (6) is provided with a cover layer (15) on a side thereof adjacent to the mosquito trapping chamber (5).

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