CN111543406A

CN111543406A - Energy-saving mosquito killing device

Info

Publication number: CN111543406A
Application number: CN202010513320.2A
Authority: CN
Inventors: 季雷波
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2020-08-18

Abstract

The invention discloses an energy-saving mosquito killing device which comprises a machine body, wherein a collecting tank is arranged on the machine body, a fan is arranged on the bottom wall of the collecting tank, an annular trapping lamp is arranged on the inner wall of a notch of the collecting tank, a plurality of supports are symmetrically arranged at the upper end of the machine body, a cover is jointly arranged on the plurality of supports, a first annular metal sheet is arranged on the notch of the collecting tank, a second annular metal sheet is arranged at the lower end of the cover, a plurality of air guide pipes are embedded in the machine body and are communicated with the collecting tank and the outer side of the machine body. The fan is connected with the loop of the first annular metal sheet and the loop of the second annular metal sheet in series to achieve the purposes that the dead body of the mosquito is automatically sucked after the mosquito is killed and the dead body of the mosquito is automatically closed after the mosquito is sucked, wiping and cleaning are not needed, electric energy is saved, operation noise is reduced, the device can kill and suck larger mosquitoes through the air guide pipe and the air chute, the device is prevented from being blocked, and the applicability of the device is improved.

Description

Energy-saving mosquito killing device

Technical Field

The invention relates to the field of mosquito killing equipment, in particular to an energy-saving mosquito killing device.

Background

Every summer, a lot of mosquitoes often appear in households of residents in areas with lower floors or areas close to water banks, green belts and the like, the daily rest of the residents is influenced by the activities of the mosquitoes, and certain germs can be brought.

The existing mosquito killing device is usually used for trapping electric mosquito liquid or light, the electric mosquito liquid is harmful to a body after being used for a long time, the light is trapped to attract mosquitoes through the light and kill the mosquitoes through electric shock, a dead body which is coked by the mosquitoes can be left on a power grid after long-time use, the mosquito killing device is not beneficial to cleaning, the novel mosquito killing device sucks dead mosquitoes into a collector through a fan to be convenient for cleaning, but the fan runs for a long time, more electric quantity is consumed, and noise interference is easily generated for people with low sleep quality.

Disclosure of Invention

The invention aims to solve the defects that electric mosquito liquid is harmful to human bodies, trapping is not easy to clean only by light electric shock, and long-time operation of a fan influences sleep in the prior art, and provides an energy-saving mosquito killing device.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an energy-conserving mosquito eradication device, includes the organism, the collecting vat has been seted up on the organism, the tank bottom wall mounting of collecting vat has the fan, annular trapping lamp is installed to the notch inner wall of collecting vat, a plurality of supports are installed to the upper end symmetry of organism, and is a plurality of install the cover on the support jointly, first annular sheetmetal is installed to the notch of collecting vat, second annular sheetmetal is installed to the lower extreme of cover, inlay in the organism and be equipped with a plurality of guide ducts, and a plurality of guide ducts all communicate the outside of collecting vat and organism, slide jointly in organism and the collecting vat and insert and be equipped with the collection steamer tray, and collect the top that the steamer tray is located the fan, the bottom of organism is inlayed and is established and is installed the battery, the battery traps lamp electric parallel.

Preferably, the first annular metal sheet and the second annular metal sheet are 5mm-10mm apart;

the distance between the first annular metal sheet and the second annular metal sheet is the size of common mosquitoes, the mosquitoes are attracted by the annular trapping lamp at the groove opening of the collecting groove to be close to the gap between the first annular metal sheet and the second annular metal sheet and try to enter, and then the mosquitoes are in contact with and conduct the first annular metal sheet and the second annular metal sheet.

Preferably, the positive electrode and the negative electrode of the storage battery are respectively and electrically connected with the fan and the second annular metal sheet in series, and the fan is electrically connected with the first annular metal sheet in series;

first annular sheetmetal and second annular sheetmetal switch on through the mosquito, then electric shock return circuit "battery-second annular sheetmetal-first annular sheetmetal-fan-battery" establish ties and switch on, then the fan starts, and the mosquito is died by the electric shock through the electric current, the fan that starts produces suction in the collecting vat with the mosquito corpse suction collecting steamer tray in the collecting vat, the mosquito corpse is inhaled the disconnection of electric shock return circuit after in the collecting steamer tray, then the fan stops, the electric energy is saved, and can not produce the noise when there is not the mosquito, the sleep of being convenient for is used.

Preferably, a plurality of air chutes are symmetrically formed in the side wall of the cover, a plurality of supports are slidably mounted in the air chutes, a plurality of air guide pipes extend into the air chutes along the plurality of supports, and a conductive spring is mounted between the lower bottom wall of one end of each support, which is located in the air chute, and the bottom wall of the air chute;

the air current that the fan produced makes the cover upwards by the jack-up in getting into the gas spout through the guide duct, and conductive spring is compressed, and the cover of jack-up makes gas spout and external intercommunication, then the air current flows the gas spout and exhausts, and the cover is by the jack-up back, and the distance between second annular sheetmetal and the first annular sheetmetal increases, then can make great mosquito inhale in the collecting vat.

Preferably, the positive electrode and the negative electrode of the storage battery are respectively and electrically connected in series with a fan and one of the conductive springs, the fan is electrically connected in series with the first annular metal sheet, and one of the conductive springs is electrically connected with the second annular metal sheet;

after mosquitoes contact the first annular metal sheet and the second annular metal sheet to be conducted, a loop of a storage battery, a conductive spring, the second annular metal sheet, the first annular metal sheet, a fan and the storage battery is conducted, the fan starts to start, so that suction is generated in the collecting tank, air flow flows to the air guide pipe from the notch of the collecting tank, the air guide pipe discharges the air flow into the air chute and pushes the cover to ascend, the distance between the first annular metal sheet and the second annular metal sheet is increased, mosquito carcasses are more easily sucked into the collecting drawer in the collecting tank by the fan, gaps between the first annular metal sheet and the second annular metal sheet are prevented from being clamped by mosquitoes with larger volume, and the device is easier to clean;

after the mosquito was inhaled in the collecting vat, the fan stopped, and the air current stops to flow in the gas spout, then the cover moves down, and the distance between first annular sheetmetal and the second annular sheetmetal resumes, can continue to kill the mosquito.

The invention has the following beneficial effects:

1. switch on the electric shock through the first annular sheetmetal of mosquito contact and second annular sheetmetal and kill the mosquito, and make series connection's fan start-up inhale the mosquito corpse in the collection steamer tray in the collecting vat, avoid the mosquito corpse to remain and cause the gap to block up and be difficult to the clearance between first annular sheetmetal and the second annular sheetmetal, and the mosquito is inhaled collecting vat back circuit disconnection and is made the fan stop, save the electric energy promptly, noise when can reduce normal use again, the use of increase device is experienced.

2. The air current that the fan starts the production rises the cover in getting into the gas spout through the guide duct, increases the distance between first annular sheetmetal and the second annular sheetmetal, then can inhale the collecting vat with the dead mosquito of bigger volume of electricity in, avoids blockking up the gap behind the big volume mosquito electricity dies, has further increased the easy clean ability and the kill mosquito ability of device.

In conclusion, the fan is connected with the loop of the first annular metal sheet and the loop of the second annular metal sheet in series to achieve the purposes that the dead body of the mosquito is automatically sucked after the mosquito is killed and killed, the dead body is automatically closed after the mosquito is sucked, the dead body of the mosquito is not required to be cleaned, the electric energy is saved, the operation noise is reduced, the device can kill and suck larger mosquitoes through the air guide pipe and the air chute, the device is prevented from being blocked, and the applicability of the device is improved.

Drawings

FIG. 1 is a schematic structural diagram of an energy-saving mosquito eradication device provided by the invention;

FIG. 2 is a schematic circuit connection diagram of an energy-saving mosquito killing device according to the present invention;

FIG. 3 is a schematic diagram of a cover structure according to a second embodiment;

fig. 4 is a circuit connection diagram of the second embodiment.

In the figure: the device comprises a machine body 1, a collection drawer 2, a support 3, a machine cover 4, a fan 5, an air guide pipe 6, a collection groove 11, a first annular metal sheet 12, an annular trapping lamp 13, a storage battery 14, a second annular metal sheet 41, an air chute 42 and a conductive spring 43.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The first embodiment is as follows:

referring to fig. 1-2, an energy-conserving mosquito eradication device, which comprises a body 1, collecting vat 11 has been seted up on the organism 1, install fan 5 on the tank bottom wall of collecting vat 11, annular trapper 13 is installed to the notch inner wall of collecting vat 11, a plurality of supports 3 are installed to the upper end symmetry of organism 1, install cover 4 on a plurality of supports 3 jointly, first annular sheetmetal 12 is installed to the notch of collecting vat 11, second annular sheetmetal 41 is installed to the lower extreme of

cover

4, 1 embedded a plurality of guide ducts 6 that are equipped with of organism, and a plurality of guide ducts 6 all communicate collecting vat 11 and organism 1's the outside, it inserts and is equipped with collection steamer tray 2 to slide jointly in organism 1 and the collecting vat 11, and collect steamer tray 2 and be located the top of fan 5, the bottom of organism 1 is inlayed and is established and is installed battery 14, battery 14 traps.

The distance between the first annular metal sheet 12 and the second annular metal sheet 41 is 5mm-10 mm;

the distance between the first annular metal sheet 12 and the second annular metal sheet 41 is the size of a common mosquito, the mosquito is attracted by the annular trapping lamp 13 at the notch of the collecting tank 11 to be close to the gap between the first annular metal sheet 12 and the second annular metal sheet 41 and tries to dig into the gap, and the mosquito contacts and conducts the first annular metal sheet 12 and the second annular metal sheet 41.

The positive electrode and the negative electrode of the storage battery 14 are respectively and electrically connected with the fan 5 and the second annular metal sheet 41 in series, and the fan 5 is electrically connected with the first annular metal sheet 12 in series;

first annular sheetmetal 12 and second annular sheetmetal 41 switch on through the mosquito, then electric shock return circuit "battery 14-second annular sheetmetal 41-first annular sheetmetal 12-fan 5-battery 14" establish ties and switch on, then fan 5 starts, and the mosquito is died by the electric shock through the electric current, fan 5 that starts produces suction in collecting vat 11 with the mosquito corpse suction collecting steamer tray 2 in collecting vat 11, the mosquito corpse is inhaled and is collected the disconnection of electric shock return circuit behind in the steamer tray 2, then fan 5 stops, save the electric energy, and can not produce the noise when no mosquito, the sleep of being convenient for is used.

In this embodiment, the mosquito receives the influence of the annular trapper lamp 13 of collecting vat 11 notch and flies into in the collecting vat 11, then the mosquito can contact first annular sheetmetal 12 and second annular sheetmetal 41, then motor circuit "battery 14-second annular sheetmetal 41-first annular sheetmetal 12-fan 5-battery 14" switches on, the mosquito is electrocuted, and fan 5 starts to produce suction and inhales the mosquito corpse in the collection steamer tray 2 in the collecting vat 11, the electric shock return circuit disconnection after the mosquito corpse is inhaled, then fan 5 stall, save electric energy and noise reduction, the mosquito is inhaled and can not blocked between first annular sheetmetal 12 and second annular sheetmetal 41 in the collection steamer tray 2, reduce the degree of difficulty of clearance.

Example two:

referring to fig. 3-4, an energy-saving mosquito killing device, which is substantially the same as the first embodiment except that:

a plurality of air sliding grooves 42 are symmetrically formed in the side wall of the machine cover 4, the plurality of supports 3 are slidably mounted in the air sliding grooves 42, the plurality of air guide pipes 6 extend into the air sliding grooves 42 along the plurality of supports 3, and a conductive spring 43 is mounted between the lower bottom wall of one end, located in the air sliding grooves 42, of each support 3 and the bottom wall of the air sliding groove 42;

the air current that fan 5 produced makes cover 4 upwards by jack-up in getting into gas spout 42 through guide duct 6, and conducting spring 43 is compressed, and the cover 4 of jack-up makes gas spout 42 and external intercommunication, and then the air current flows out gas spout 42 and exhausts, and cover 4 is by the jack-up back, and the distance between second annular sheetmetal 41 and the first annular sheetmetal 12 increases, then can make great mosquito inhale in the collecting vat 11.

The positive electrode and the negative electrode of the storage battery 14 are respectively and electrically connected with the fan 5 and one of the conductive springs 43 in series, the fan 5 is electrically connected with the first annular metal sheet 12 in series, and one of the conductive springs 43 is electrically connected with the second annular metal sheet 41;

after the mosquitoes contact the first annular metal sheet 12 and the second annular metal sheet 41 and are conducted, the loop 'storage battery 14, conductive spring 43, second annular metal sheet 41, first annular metal sheet 12, fan 5 and storage battery 14' is conducted, the fan 5 starts to start, the fan 5 starts to enable suction force to be generated in the collecting tank 11, air flow flows to the air guide pipe 6 from the notch of the collecting tank 11, the air guide pipe 6 discharges the air flow into the air slide groove 42 and pushes the cover 4 to ascend, the distance between the first annular metal sheet 12 and the second annular metal sheet 41 is increased, the fan 5 enables mosquito carcasses to be sucked into the collecting drawer 2 in the collecting tank 11 more easily, the phenomenon that the mosquitoes with larger volume block the gap between the first annular metal sheet 12 and the second annular metal sheet 41 is avoided, and the device is enabled to be cleaned more easily;

after the mosquitoes are sucked into the collecting groove 11, the fan 5 stops, the airflow stops flowing into the air chute 42, the cover 4 moves downwards, the distance between the first annular metal sheet 12 and the second annular metal sheet 41 recovers, and the mosquitoes can be killed continuously.

In this embodiment, when the larger mosquitoes contact the first annular metal sheet 12 and the second annular metal sheet 41 and are electrocuted, the loop "the storage battery 14, the conductive spring 43, the second annular metal sheet 41, the first annular metal sheet 12, the fan 5, the storage battery 14" is turned on, the fan 5 is started to generate suction, the air flow enters the air chute 42 along the air guide pipe 6, so that the cover 4 is lifted, the distance between the first annular metal sheet 12 and the second annular metal sheet 41 is increased, the fan 5 is convenient to suck the larger mosquitoes into the collecting tank 11, after the larger mosquitoes are sucked, the loop is broken, the fan 5 is stopped, the air flow is stopped, the cover 4 is lowered under the action of the conductive spring 43 and gravity, the distance between the first annular metal sheet 12 and the second annular metal sheet 41 is recovered, and the operation can be continued and the small mosquitoes can be prevented from escaping.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An energy-saving mosquito killing device comprises a machine body (1) and is characterized in that a collecting tank (11) is arranged on the machine body (1), a fan (5) is arranged on the wall of the bottom of the collecting tank (11), an annular trapping lamp (13) is arranged on the inner wall of a notch of the collecting tank (11), a plurality of supports (3) are symmetrically arranged at the upper end of the machine body (1), a plurality of machine covers (4) are jointly arranged on the supports (3), a first annular metal sheet (12) is arranged on the notch of the collecting tank (11), a second annular metal sheet (41) is arranged at the lower end of each machine cover (4), a plurality of air guide pipes (6) are embedded in the machine body (1), the air guide pipes (6) are all communicated with the outer sides of the collecting tank (11) and the machine body (1), and a collecting drawer (2) is jointly inserted in the machine body (1) and the collecting tank (, and the collection drawer (2) is positioned above the fan (5), the bottom of the machine body (1) is embedded with a storage battery (14), and the storage battery (14) is electrically connected with the annular trapping lamp (13) in parallel.

2. An energy-saving mosquito killing device according to claim 1, wherein the first annular metal sheet (12) and the second annular metal sheet (41) are separated by 5mm-10 mm.

3. An energy-saving mosquito killing device according to claim 1, wherein the positive electrode and the negative electrode of the storage battery (14) are respectively connected with the fan (5) and the second annular metal sheet (41) in series, and the fan (5) is connected with the first annular metal sheet (12) in series.

4. The energy-saving mosquito killing device according to claim 1, wherein a plurality of air chutes (42) are symmetrically formed in the side wall of the cover (4), the plurality of brackets (3) are slidably mounted in the air chutes (42), the plurality of air guide pipes (6) extend into the air chutes (42) along the plurality of brackets (3), and a conductive spring (43) is mounted between the lower bottom wall of one end of each bracket (3) located in the air chute (42) and the bottom wall of the air chute (42).

5. An energy-saving mosquito killing device according to claim 4, wherein the positive electrode and the negative electrode of the storage battery (14) are respectively electrically connected in series with the fan (5) and one of the conductive springs (43), the fan (5) is electrically connected in series with the first annular metal sheet (12), and one of the conductive springs (43) is electrically connected with the second annular metal sheet (41).