CN109442311B - New forms of energy street lamp with remove mosquito function - Google Patents

Abstract

The invention relates to the field of new energy street lamps, in particular to a new energy street lamp with a mosquito removing function, which comprises a base, a lamp post, an auxiliary component, a mosquito removing component, a solar power generation device, a wind power generation device and two energy-saving LED lamps, wherein the lamp post is connected with a roadbed through the base, the two energy-saving LED lamps are symmetrically arranged at the upper end of the lamp post, a storage component is arranged at the middle section of the lamp post and can rotate along the axis of the lamp post through the auxiliary component, a turnover motor used for driving the mosquito removing component to rotate outwards is arranged in the storage component, the solar power generation device and the wind power generation device are both arranged at the top end of the lamp post, a rainy day detection device is also arranged at the top end of the lamp post, a controller and a storage battery are arranged in the lamp post, the rainy day detection device is electrically connected with the controller, and the storage battery is electrically connected with the energy-saving LED lamps through a contact switch, the invention fully utilizes renewable energy sources and meets the requirement of environmental protection, and can also remove mosquitoes while daily lighting, thereby optimizing the living environment in the district.

Description

New forms of energy street lamp with remove mosquito function

Technical Field

The invention relates to the field of new energy street lamps, in particular to a new energy street lamp with a mosquito removing function.

Background

The new energy is also called unconventional energy. Refers to various forms of energy sources other than traditional energy sources. The energy to be popularized is energy which is just developed and utilized or is actively researched, such as solar energy, geothermal energy, wind energy, ocean energy, biomass energy, nuclear fusion energy and the like. The energy-saving technology is to adopt advanced technical means to achieve the purpose of saving energy.

In each cell in a city, some street lamps are seen, and the street lamps partially use halogen lamps with high energy consumption and directly supply power by adopting an alternating current power supply (220V), so that a large amount of electric energy is consumed; in addition, when people are in summer with more mosquitoes, a great amount of mosquitoes can fly above the street lamp irradiation area after the street lamps in the residential area are in the evening, and the mosquitoes affect the irradiation attractiveness of the street lamps and the walking of people in the residential area and rest in the street lamp irradiation range.

Disclosure of Invention

The invention aims to provide a new energy street lamp with a mosquito removing function aiming at the defects of the prior art.

In order to solve the above problems, the present invention provides the following technical solutions:

the utility model provides a new forms of energy street lamp with remove mosquito function, the on-line screen storage device comprises a base, the lamp pole, auxiliary assembly, remove the mosquito subassembly, solar power system, wind power system and two energy-conserving LED lamps, the lamp pole is vertical and is connected with the road bed through the base, lamp pole upper end is located to two energy-conserving LED lamp symmetries, lamp pole middle section is equipped with the subassembly of accomodating that is used for holding the mosquito subassembly, the subassembly of accomodating can rotate along the axis of lamp pole through auxiliary assembly, be equipped with in the subassembly of accomodating and be used for driving the upset motor that removes the mosquito subassembly outwards rotated, solar power system and wind power system all install on the lamp pole top, the lamp pole top still is equipped with rainy day detection device, be provided with controller and battery in the lamp pole, rainy day detection device and controller electric connection, the battery passes through contact switch and energy-conserving LED lamp electric connection.

Further, the mosquito removal subassembly is including removing mosquito electric wire netting, net frame, AC/DC converter and connecting rod, and the one end at the connecting rod is fixed to the net frame, and the other end of connecting rod is provided with and is used for driving its extensible member that can the horizontal activity, and the mosquito electric wire netting of removing is installed in the net frame, and the battery passes through contactor and AC/DC converter's direct current end electric connection, and AC/DC converter's alternating current end is equipped with electric connection's rectifier with it, and the rectifier passes through transformer and mosquito electric wire netting electric connection that removes.

Further, the storage assembly includes the movable block, installation storehouse and opening and closing piece, the movable block is cylindrical structure, and can establish on the lamp pole around self axis pivoted cover, the outer wall fixed connection of installation storehouse and movable block, the front side that the lamp pole was kept away from in the installation storehouse and its top are open and set up, the symmetry is equipped with two L templates that can move about in opposite directions and splice each other in the installation storehouse, opening and closing piece is connected with two L template transmissions, and the long limit of the two and minor face are used for respectively can opening totally or close totally with the front side and the top in installation storehouse.

Further, the extensible member is including extending the lead screw, extend the motor, U template and roating seat, the one end of roating seat is articulated through the pivot with the lateral wall in the installation storehouse, the upset motor is connected with the pivot transmission, extend the motor and fix the other end at the roating seat, and the outside at this one end of roating seat is installed to the one end of U template, the other end of U template outwards extends, the U template is in under the normality, its extending direction parallels with the axial of lamp pole, it connects in the opening of U template to extend the lead screw axle, extend the motor and extend the lead screw transmission and be connected, it is equipped with the nut piece of being connected with its transmission to extend the cover on the lead screw, the nut piece passes through extension board and connecting rod fixed connection, the extending direction of connecting rod parallels all the time with the extending direction of U template, the outside clearance fit of nut piece and U template.

Further, the opening and closing piece comprises an opening and closing motor and a bidirectional lead screw, the bidirectional lead screw is horizontally connected above the installation bin in a horizontal axis mode, the bidirectional lead screw is arranged close to a lamp post, the opening and closing motor is inversely installed above the middle section of the bidirectional lead screw through a waterproof box, the opening and closing motor is in transmission connection with the bidirectional lead screw through a gear set, two transmission blocks are symmetrically sleeved on the bidirectional lead screw, and the two transmission blocks are respectively fixedly connected with an L-shaped plate through an anti-falling block.

Further, diapire symmetry in the installation storehouse is equipped with two baffles, and the two one side in opposite directions all is equipped with the pappus brush, and the mosquito electric wire netting that removes is located between two baffles, and the waste material mouth has been seted up to the diapire in installation storehouse, and the waste material mouth is located two baffles in the middle of being positive.

Further, the auxiliary assembly includes except that mosquito motor, bevel gear and a plurality of gangbar, and the bevel gear can be established at the lower half section of lamp pole around self axis pivoted cover, and all gangbars are vertical locates the top of bevel gear to angular distribution such as circumference along the lamp pole in proper order, the top of all gangbars all with the bottom fixed connection of movable block, except that the mosquito motor is installed in the inside of lamp pole and be connected with the bevel gear transmission.

Furthermore, rainy day detection device includes raindrop sensor and transparent material's plate body, and the plate body is horizontal installation at the lamp pole top, and the raindrop sensor is installed in the bottom of plate body.

Furthermore, the solar power generation device is electrically connected with the storage battery through the photovoltaic controller, and the wind power generation device is electrically connected with the storage battery through the transformer rectifier.

Has the advantages that: according to the new energy street lamp with the mosquito removing function, the power supply time of the energy-saving LED lamp given by the storage battery is preset in the controller, and the power is automatically supplied when the energy-saving LED lamp reaches the time; it is noted that the mosquito expelling assembly is only used in the evening of the mosquito season, and is adjusted and set adaptively according to the subsequent maintenance personnel, and the adjusting time is set at each fixed time point after the evening; when mosquitoes and insects are in a season, the mosquitoes and insects can concentrate on the strongest periphery of a light source below the energy-saving LED lamp to fly due to the irradiation of the energy-saving LED lamp and the phototaxis of the mosquitoes and insects, then the opening and closing piece drives the two L-shaped plates to move back to back, the front part and the top part of the installation bin are in an open state, then the overturning motor drives the rotating seat to rotate, in the rotation process, the connecting rod, the extension screw rod and the mosquito-killing net all rotate outwards and rotate upwards from top to bottom, in addition, in the process, the extension motor works to force the extension screw rod to rotate around the axis of the extension screw rod, the nut block further moves along the axial direction of the nut block, the axial direction of the extension screw rod is parallel to the axial direction of the U-shaped plate, namely, the nut block moves through driving the support plate connecting rod, the connecting rod depends on the U-shaped plate as the supporting force to extend outwards, so that the effective extension is realized, and the extended connecting rod can enable the mosquito-killing net to be close to and be positioned below the energy-saving LED lamp, and at the moment, the storage battery is electrified to the mosquito removing power grid, then the mosquito removing motor works, all the linkage rods further rotate by driving the bevel gears to rotate around the axes of the umbrella gears, then the movable blocks rotate, the movable blocks can drive the installation bin and the mosquito removing power grid, the mosquito removing power grid surrounds the periphery below the energy-saving LED lamp, the mosquito removing power grid is in an electrified state in the surrounding and starts to contact mosquitoes to achieve the aim of removing the mosquitoes, the mosquito removing power grid is powered off after rotating for one to two circles and then keeps an inclined and extending posture without resetting to the installation bin, the electric energy consumed by the overturning motor and the extending motor is saved, after the next time point, namely in the waiting process, the mosquitoes are gathered below the energy-saving LED lamp again, at the moment, the mosquito removing power grid is rotated by the mosquito removing motor again to further achieve secondary mosquito removing, and then the circulation is carried out to the set times, the mosquito killing grid is reset into the installation bin through the overturning motor and the extension motor, the mosquito killing grid is in power failure during resetting, and then when the mosquito killing grid enters the installation bin, the mosquito killing grid enters between the two baffles and is in contact with the soft brush in the baffles, so that the dead body of the previous mosquito killing on the mosquito killing grid can be rubbed and dropped, and the mosquito killing area of the mosquito killing grid is cleaned; then, in the daytime, the solar power generation device generates power and is stored by the storage battery, and the wind power generation device generates power for 24 hours, so that electric energy required by the mosquito removal component and the energy-saving LED lamp is ensured, the raindrop sensor senses whether the LED lamp is raining or not, and when the LED lamp is raining, the mosquito removal component does not work through the controller, so that the mosquito removal power grid is protected on one hand, and on the other hand, few mosquitoes exist in rainy days, so that the mosquito removal efficiency is low.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic plan view of the present invention;

FIG. 4 is a first structural diagram illustrating an operating state of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a second schematic structural view of the working state of the present invention;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is a partial perspective cut-away view of the present invention;

FIG. 9 is a partial perspective view of the present invention;

FIG. 10 is a system start-up block diagram of the present invention;

description of reference numerals: a lamp post 1 and an energy-saving LED lamp 1 a.

The mosquito killer comprises an auxiliary component 2, a mosquito killing motor 2a, umbrella teeth 2b and a linkage rod 2 c.

Remove mosquito subassembly 3, remove mosquito electric wire netting 3a, screen frame 3b, connecting rod 3c, extension lead screw 3d, extension motor 3e, U template 3q, roating seat 3t, extension board 3y, nut piece 3 r.

Storage component 4, movable block 4a, installation storehouse 4b, L template 4c opens and close motor 4d, two-way lead screw 4q, waterproof box 4w, gear train 4u, transmission piece 4k, anticreep piece 4 m.

A baffle 5 and a waste opening 5 a.

A solar power generation device 6 and a wind power generation device 7.

Raindrop sensor 8, plate body 8 a.

And a storage battery 9.

Detailed Description

The following detailed description of specific embodiments of the present invention is made with reference to the accompanying drawings and examples:

referring to fig. 1 to 10, the new energy street lamp with a mosquito repelling function includes a base, a lamp post 1, and an auxiliary assembly 2, remove mosquito subassembly 3, solar power system 6, wind power system 7 and two energy-conserving LED lamp 1a, lamp pole 1 is vertical and is connected with the road bed through the base, 1 upper end of lamp pole is located to two energy-conserving LED lamp 1a symmetries, 1 middle section of lamp pole is equipped with the subassembly 4 of accomodating that is used for holding mosquito subassembly 3, the subassembly 4 of accomodating can rotate along the axis of lamp pole 1 through auxiliary assembly 2, be equipped with in the subassembly 4 and be used for driving the upset motor that removes mosquito subassembly 3 outwards rotated, solar power system 6 and wind power system 7 are all installed on 1 top of lamp pole, 1 top of lamp pole still is equipped with rainy day detection device, be provided with controller and battery 9 in the lamp pole 1, rainy day detection device and controller electric connection, battery 9 passes through contact switch and energy-conserving LED lamp 1a electric connection.

The mosquito removing component 3 comprises a mosquito removing power grid 3a, a grid frame 3b, an alternating current-direct current converter and a connecting rod 3c, the grid frame 3b is fixed at one end of the connecting rod 3c, the other end of the connecting rod 3c is provided with a telescopic piece which is used for driving the connecting rod 3c to move horizontally, the mosquito removing power grid 3a is installed in the grid frame 3b, a storage battery 9 is electrically connected with the direct current end of the alternating current-direct current converter through a contactor, the alternating current end of the alternating current-direct current converter is provided with a rectifier which is electrically connected with the alternating current end of the alternating current-direct current converter, and the rectifier is electrically connected with the mosquito removing power grid 3a through a transformer; the storage battery 9 forms two parallel circuits through a contact switch and a contactor, and aims to be in a long-time non-extinguishing state when the energy-saving LED lamp 1a works, and the mosquito-killing power grid 3a is powered on and powered off in a normal state under a working state: therefore, when the mosquito-killing electric net 3a works, the controller and the contactor realize the on-off of the circuit of the mosquito-killing electric net 3 a; the storage battery 9 supplies power to the AC-DC converter, converts the DC power into AC power, and then transmits the AC power to the transformer through the rectifier, so that the transmitted power is supplied to the mosquito killing electric net 3a through the transformer, and the mosquito killing electric net 3a can kill mosquitoes by using the current; the energy-saving LED lamp 1a is used for saving energy consumption and simultaneously not influencing the brightness of an irradiation range.

The storage assembly 4 comprises a movable block 4a, an installation bin 4b and a starting and closing piece, wherein the movable block 4a is of a cylindrical structure and can be sleeved on the lamp post 1 in a rotating mode around the axis of the movable block 4a, the installation bin 4b is fixedly connected with the outer wall of the movable block 4a, the front side of the installation bin 4b, far away from the lamp post 1, and the top of the installation bin are both arranged in an open mode, two L-shaped plates 4c which can move in opposite directions and are spliced with each other are symmetrically arranged in the installation bin 4b, the starting and closing piece is in transmission connection with the two L-shaped plates 4c, and long sides and short sides of the two L-shaped plates are respectively used for completely opening or completely closing the front side and the top of the installation bin 4 b; the opening and closing piece is used for enabling the two L-shaped plates 4c to move towards or away from each other, namely the two L-shaped plates can open or close the front side and the top of the mounting bin 4b, and the opening is used for facilitating the subsequent overturning motor to force the mosquito killing assembly 3 to be smoothly overturned out of the mounting bin 4b, namely the overturning sequence of the mosquito killing assembly 3 is from bottom to top; the purpose of closing is to effectively ensure that the mosquito repellent component 3 can be stabilized in the installation chamber 4b in a normal state, and further is not influenced by external rainwater.

The telescopic part comprises an extension screw rod 3d, an extension motor 3e, a U-shaped plate 3q and a rotary seat 3t, one end of the rotary seat 3t is hinged with the side wall in the installation bin 4b through a rotary shaft, the overturning motor is in transmission connection with the rotary shaft, the extension motor 3e is fixed at the other end of the rotary seat 3t, one end of the U-shaped plate 3q is installed at the outer side of one end of the rotary seat 3t, the other end of the U-shaped plate 3q extends outwards, the extension direction of the U-shaped plate 3q is parallel to the axial direction of the lamp post 1 under a normal state, the extension screw rod 3d is axially connected in an opening of the U-shaped plate 3q, the extension motor 3e is in transmission connection with the extension screw rod 3d, a nut block 3r in transmission connection with the extension screw rod 3d is sleeved on the extension screw rod 3d, the nut block 3r is fixedly connected with a connecting rod 3c through a support plate 3y, the extension direction of the connecting rod 3c is always parallel to the extension direction of the U-shaped plate 3q, the nut block 3r is movably matched with the outer side of the U-shaped plate 3 q; when the mosquito killing work is needed, the extension motor 3e works to force the extension screw rod 3d to rotate around the axis of the extension screw rod 3d, the nut block 3r further moves along the axial direction of the nut block 3r, the axial direction of the extension screw rod 3d is parallel to the axial direction of the U-shaped plate 3q, namely, the nut block 3r drives the connecting rod 3c to move through the support plate 3y, the connecting rod 3c depends on the U-shaped plate 3q as a supporting force and extends outwards, and the effective extension is realized, the stroke aims at that the mosquitoes can be well extended to the periphery below the energy-saving LED lamp 1a for killing the mosquitoes due to the phototaxis of the mosquitoes, and after the mosquitoes are killed, the mosquitoes can be well stored in the mounting bin 4b through retraction and shortening, the overturning motor rotates through driving the rotating shaft, thereby achieving the purpose of driving the rotary seat 3t to rotate and further realizing the purpose of rotating the connecting rod 3c, the extension screw rod 3d, the mosquito net 3a and the like to the installation bin 4 b.

The starting and closing part comprises a starting and closing motor 4d and a bidirectional screw rod 4q, the bidirectional screw rod 4q is horizontally connected above the mounting bin 4b, the bidirectional screw rod 4q is arranged close to the lamp post 1, the starting and closing motor 4d is arranged above the middle section of the bidirectional screw rod 4q in an inverted manner through a waterproof box 4w, the starting and closing motor 4d is in transmission connection with the bidirectional screw rod 4q through a gear set 4u, two transmission blocks 4k are symmetrically sleeved on the bidirectional screw rod 4q, and the two transmission blocks 4k are fixedly connected with an L-shaped plate 4c through an anti-falling block 4m respectively; need remove the mosquito in-process, it can make two-way lead screw 4q rotate around self axis to open and close motor 4d, further make two driving block 4k begin to take place to move along two-way lead screw 4 q's axial or dorsad, also be exactly through the motion of the respective L template 4c of anticreep piece 4m control, make L template 4c to the outside motion of installation storehouse 4b, and anticreep piece 4m can prevent that L template 4c from breaking away from installation storehouse 4b spout, constitute spacing purpose promptly, two L templates 4c move the back dorsad, the front side of installation storehouse 4b and the uncovered at top are regarded as opening promptly, connecting rod 3c and the mosquito net 3a then can rotate and go out this moment.

The bottom wall in the installation bin 4b is symmetrically provided with two baffles 5, one opposite side of each baffle is provided with a soft brush, the mosquito-killing electric net 3a is positioned between the two baffles 5, the bottom wall of the installation bin 4b is provided with a waste material port 5a, and the waste material port 5a is positioned in the middle of the two baffles 5; when the mosquito killing grid 3a is rotated to the outside of the installation bin 4b by the overturning motor, the mosquito killing grid 3a is still in a power-off state at the moment, and then is in friction contact with the soft brush on the inner side of the baffle 5, so that the corpse which is killed by the mosquito killing grid 3a before can be rubbed to fall off, and can fall off to the outside through the waste port 5 a.

The auxiliary assembly 2 comprises a mosquito removing motor 2a, umbrella teeth 2b and a plurality of linkage rods 2c, the umbrella teeth 2b can be sleeved on the lower half section of the lamp post 1 in a rotating mode around the axis of the umbrella teeth 2b, all the linkage rods 2c are vertically arranged at the top of the umbrella teeth 2b and are sequentially distributed at equal angles along the circumferential direction of the lamp post 1, the top ends of all the linkage rods 2c are fixedly connected with the bottom of the movable block 4a, and the mosquito removing motor 2a is installed inside the lamp post 1 and is in transmission connection with the umbrella teeth 2 b; after the front side and the top of the installation bin 4b are opened by the back movement of the two L-shaped plates 4c, the connecting rod 3c, the extension screw rod 3d and the mosquito repelling grid 3a are rotated to the outside of the installation bin 4b by the overturning motor, and the overturned posture is inclined upwards; then, due to the acting force of the extension screw rod 3d, the connecting rod 3c moves outwards, after the distance between the connecting rod and the connecting rod is increased, the mosquito removing power grid 3a is located below the energy-saving LED lamp 1a at the moment and is close to the energy-saving LED lamp 1a, the mosquito removing motor 2a works at the moment, all the linkage rods 2c are further enabled to rotate by driving the umbrella teeth 2b to rotate around the axis of the connecting rod, then the movable block 4a rotates automatically, the movable block 4a can drive the installation bin 4b and the mosquito removing power grid 3a, the mosquito removing power grid 3a surrounds the periphery below the energy-saving LED lamp 1a, the mosquito removing power grid 3a in the surrounding process is in an electrified state and starts to contact with mosquitoes, and the mosquito removing purpose is achieved.

The rainy day detection device comprises a raindrop sensor 8 and a plate body 8a made of transparent materials, wherein the plate body 8a is horizontally arranged at the top of the lamp post 1, and the raindrop sensor 8 is arranged at the bottom of the plate body 8 a; in rainy days, mosquitoes can not be nearby the energy-saving LED lamp 1a, and the mosquito removing power grid 3a does not perform mosquito removing work in consideration of the safety of the mosquito removing power grid 3 a; the specific steps are that raindrops drop to the surface of the plate body 8a, the raindrop sensor 8 senses to receive and sense, signals can be transmitted to the controller, the controller enables the mosquito removing assembly 3, the auxiliary assembly 2 and the like to be out of work, mosquitoes are removed at night after the weather is clear, and the plate body 8a is made of transparent materials and facilitates detection of the raindrop sensor 8.

The solar power generation device 6 is electrically connected with the storage battery 9 through a photovoltaic controller, and the wind power generation device 7 is electrically connected with the storage battery 9 through a transformer rectifier; the solar power generation device 6 is influenced by the photovoltaic controller, can control the output voltage of the solar battery, can protect the storage battery 9 from being overcharged, and simultaneously prevents the electricity of the storage battery 9 from flowing backwards when the solar battery does not generate electricity at night; the output of the wind power generation device 7 is alternating current, while the storage battery 9 is direct current, the two are required to be stably connected through the transformer rectifier, the storage battery 9 stores the electric energy generated by the wind power generation device 7 and the solar power generation device 6, the electric energy is transmitted to the mosquito removal assembly 3 to work after evening when mosquitoes are in season, and the power is also supplied to the energy-saving LED lamp 1a through the two.

The working principle is as follows: the power supply time given to the energy-saving LED lamp 1a by the storage battery 9 is preset in the controller, and the power is automatically supplied at the arrival time; and note that the mosquito eradication component 3 is only used in the evening during the mosquito season, and is adjusted and set adaptively according to the subsequent maintenance personnel, and the adjustment time is at each fixed time point after the evening; when mosquitoes are in a season, the mosquitoes can concentrate on the strongest periphery of a light source below the energy-saving LED lamp 1a to fly due to the irradiation of the energy-saving LED lamp 1a and the phototropism of the mosquitoes, then the opening and closing piece drives the two L-shaped plates 4c to move back to back, the front part and the top part of the installation bin 4b are in an open state, then the overturning motor drives the rotating seat 3t to rotate, in addition, the connecting rod 3c, the extension screw rod 3d and the mosquito-killing electric net 3a rotate outwards and upwards from top to bottom in the rotating process, in addition, the extension motor 3e works to force the extension screw rod 3d to rotate around the self axis in the process, further, the nut block 3r moves along the axial direction, the axial direction of the extension screw rod 3d is parallel to the axial direction of the U-shaped plate 3q, namely, the nut block 3r drives the connecting rod 3c to move through the supporting plate 3y, and the connecting rod 3c depends on the U-shaped plate 3q as the supporting force, extending outwards with this effective extension, the extended connecting rod 3c will make the mosquito-repelling grid 3a close to and under the energy-saving LED lamp 1a, and at this moment the storage battery 9 will energize the mosquito-repelling grid 3a, then the mosquito-repelling motor 2a works, and by driving the bevel gear 2b to rotate around its own axis, further make all the linkage rods 2c rotate, then the movable block 4a will rotate, the movable block 4a will bring the installation bin 4b and the mosquito-repelling grid 3a, the mosquito-repelling grid 3a will surround the periphery under the energy-saving LED lamp 1a, surround the middle mosquito-repelling grid 3a in an energized state, and start to contact the mosquitoes, for the mosquito-repelling purpose, after the mosquito-repelling grid 3a rotates one to two circles, the mosquito-repelling grid 3a is de-energized, then the inclination and the extension posture are maintained, i.e. not reset into the installation bin 4b, the purpose is to save the turnover motor, After the next time point, namely in the waiting process, the mosquitoes are gathered below the energy-saving LED lamp 1a again, at the moment, the mosquito removing power grid 3a is rotated by the mosquito removing motor 2a again, secondary mosquito removing is further realized, and then after the cycle is repeated to the set times, the mosquito removing power grid 3a is reset into the installation bin 4b through the overturning motor and the extension motor 3e, during the resetting, the mosquito removing power grid 3a is in the power-off state, and then when the mosquito removing power grid enters the installation bin 4b, the mosquito removing power grid 3a enters between the two baffles 5 and is contacted with the soft brush in the baffles 5, so that the corpse of the previous mosquito removing on the mosquito removing power grid 3a can be rubbed and dropped, and the mosquito removing area of the mosquito removing power grid 3a can be cleaned; then, in the daytime, the solar power generation device 6 generates power and is stored by the storage battery 9, and the wind power generation device 7 generates power for 24 hours, so that electric energy required by the mosquito repellent component 3 and the energy-saving LED lamp 1a is ensured, and the raindrop sensor 8 senses whether it rains or not, and when it rains, the controller makes the mosquito repellent component 3 not work, so that the mosquito repellent grid 3a is protected on the one hand, and on the other hand, there are few mosquitoes in the rainy day, so that the mosquito repellent efficiency is low.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (8)

1. The utility model provides a new forms of energy street lamp with remove mosquito function which characterized in that: the mosquito-killing lamp comprises a base, a lamp post (1), an auxiliary component (2), a mosquito-killing component (3), a solar power generation device (6), a wind power generation device (7) and two energy-saving LED lamps (1a), wherein the lamp post (1) is vertical and is connected with a roadbed through the base, the two energy-saving LED lamps (1a) are symmetrically arranged at the upper end of the lamp post (1), a containing component (4) used for containing the mosquito-killing component (3) is arranged at the middle section of the lamp post (1), the containing component (4) can rotate along the axis of the lamp post (1) through the auxiliary component (2), a turnover motor used for driving the mosquito-killing component (3) to rotate outwards is arranged in the containing component (4), the solar power generation device (6) and the wind power generation device (7) are both arranged at the top end of the lamp post (1), a rainy day detection device is further arranged at the top end of the lamp post (1), a controller and a storage battery (9) are arranged in the lamp post (1), the rainy day detection device is electrically connected with the controller, and the storage battery (9) is electrically connected with the energy-saving LED lamp (1a) through the contact switch;

accomodate subassembly (4) including movable block (4a), installation storehouse (4b) and open and close the piece, movable block (4a) are cylindrical structure, and can establish on lamp pole (1) around self axis pivoted cover, the outer wall fixed connection of installation storehouse (4b) and movable block (4a), the front side and its top that lamp pole (1) were kept away from in installation storehouse (4b) are open and set up, installation storehouse (4b) interior symmetry is equipped with two L template (4c) that can move about in opposite directions and splice each other, open and close the piece and be connected with two L template (4c) transmissions, and the long limit and the minor face of the two are used for respectively can opening the front side and the top of installing storehouse (4b) or close completely.

2. The new energy street lamp with the mosquito killing function as claimed in claim 1, wherein: remove mosquito subassembly (3) including removing mosquito electric wire netting (3a), net frame (3b), alternating current-direct current converter and connecting rod (3c), the one end at connecting rod (3c) is fixed in net frame (3b), the other end of connecting rod (3c) is provided with and is used for driving its extensible member that can the horizontal migration, it installs in net frame (3b) to remove mosquito electric wire netting (3a), battery (9) are through contactor and alternating current-direct current converter's direct current end electric connection, alternating current end of alternating current-direct current converter is equipped with electric connection's rectifier with it, the rectifier passes through transformer and removes mosquito electric wire netting (3a) electric connection.

3. The new energy street lamp with the mosquito killing function as claimed in claim 2, wherein: the telescopic piece comprises an extension screw rod (3d), an extension motor (3e), a U-shaped plate (3q) and a rotary seat (3t), one end of the rotary seat (3t) is hinged with the side wall in the installation bin (4b) through a rotary shaft, a turnover motor is in transmission connection with the rotary shaft, the extension motor (3e) is fixed at the other end of the rotary seat (3t), one end of the U-shaped plate (3q) is installed at the outer side of one end of the rotary seat (3t), the other end of the U-shaped plate (3q) extends outwards, the U-shaped plate (3q) is in a normal state, the extension direction of the U-shaped plate is parallel to the axial direction of the lamp post (1), the extension screw rod (3d) is in axial connection with an opening of the U-shaped plate (3q), the extension motor (3e) is in transmission connection with the extension screw rod (3d), a nut block (3r) in transmission connection with the extension screw rod (3d) is sleeved on the extension screw rod (3d), and is fixedly connected with a connecting rod (3c) through a support plate (3y), the extending direction of the connecting rod (3c) is always parallel to the extending direction of the U-shaped plate (3q), and the nut block (3r) is movably matched with the outer side of the U-shaped plate (3 q).

4. The new energy street lamp with the mosquito killing function as claimed in claim 3, wherein: the opening and closing part comprises an opening and closing motor (4d) and a bidirectional screw rod (4q), the bidirectional screw rod (4q) is horizontally connected above the mounting bin (4b) in a horizontal shaft mode, the bidirectional screw rod (4q) is arranged close to the lamp post (1), the opening and closing motor (4d) is inversely arranged above the middle section of the bidirectional screw rod (4q) through a waterproof box (4w), the opening and closing motor (4d) is in transmission connection with the bidirectional screw rod (4q) through a gear set (4u), two transmission blocks (4k) are symmetrically sleeved on the bidirectional screw rod (4q), and the two transmission blocks (4k) are respectively fixedly connected with an L-shaped plate (4c) through an anti-falling block (4 m).

5. The new energy street lamp with the mosquito killing function as claimed in claim 2, wherein: diapire symmetry in installation storehouse (4b) is equipped with two baffles (5), and the two one side in opposite directions all is equipped with the pappus brush, and the mosquito net (3a) of removing is located between two baffles (5), and waste material mouth (5a) have been seted up to the diapire in installation storehouse (4b), and waste material mouth (5a) are located two baffles (5) in the middle of being positive.

6. The new energy street lamp with the mosquito killing function as claimed in claim 1, wherein: auxiliary assembly (2) are including removing mosquito motor (2a), bevel gear (2b) and a plurality of gangbar (2c), and bevel gear (2b) can establish the lower half section at lamp pole (1) around self axis pivoted cover, and all gangbar (2c) are the vertical top of locating bevel gear (2b) to along the angular distribution such as circumference of lamp pole (1) in proper order, the top of all gangbar (2c) all with the bottom fixed connection of movable block (4a), remove mosquito motor (2a) and install in the inside of lamp pole (1) and be connected with bevel gear (2b) transmission.

7. The new energy street lamp with the mosquito killing function as claimed in claim 1, wherein: the rainy day detection device comprises a raindrop sensor (8) and a plate body (8a) made of transparent materials, wherein the plate body (8a) is horizontally arranged at the top of the lamp post (1), and the raindrop sensor (8) is arranged at the bottom of the plate body (8 a).

8. The new energy street lamp with the mosquito killing function as claimed in claim 1, wherein: the solar power generation device (6) is electrically connected with the storage battery (9) through the photovoltaic controller, and the wind power generation device (7) is electrically connected with the storage battery (9) through the transformer rectifier.

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