CN210054365U

CN210054365U - LED solar insecticidal lamp

Info

Publication number: CN210054365U
Application number: CN201920690419.2U
Authority: CN
Inventors: 马殿斌
Original assignee: SHAANXI AN BANG DE LI INDUSTRY Ltd Co
Current assignee: SHAANXI AN BANG DE LI INDUSTRY Ltd Co
Priority date: 2019-05-14
Filing date: 2019-05-14
Publication date: 2020-02-14
Anticipated expiration: 2029-05-14

Abstract

The utility model relates to an insecticidal lamp technical field specifically is a LED solar insecticidal lamp for solve current solar insecticidal lamp and do not have under the condition of sunshine for a long time, and lead to not having the problem that the electric energy can't work. The utility model discloses a lamp pole and solar photovoltaic board, install first backup pad on the lamp pole, install aerogenerator in the first backup pad, aerogenerator and solar photovoltaic board are connected with same scene complementary control ware through the wire respectively, scene complementary control ware is connected with insecticidal lamp and battery respectively through the wire, the bottom surface of insecticidal lamp is installed and is led worm mechanism, detection mechanism is installed to the top surface of insecticidal lamp. The utility model discloses a aerogenerator uses with solar photovoltaic board arranges in pairs, does not have under the condition of sunshine for a long time, can supply power for this insecticidal lamp through the wind energy that the fan generator produced, so just can not influence the normal use of this insecticidal lamp.

Description

LED solar insecticidal lamp

Technical Field

The utility model relates to an insecticidal lamp technical field, more specifically relate to a LED solar energy insecticidal lamp.

Background

The insect-killing lamp is a special device which is mainly used for killing pests and reducing the use of insecticides, and is called a solar insect-killing lamp which is powered by solar energy.

Solar energy insecticidal lamp among the prior art includes the lamp pole, the small-size motor, solar cell panel and insecticidal lamp, the lamp pole top is connected with the small-size motor, the small-size motor top is connected with the transfer line, the transfer line top is connected with solar cell panel, lamp pole one side and the below that is located the small-size motor are connected with the cross arm, cross arm top below is connected with the insecticidal lamp, the lamp pole bottom is connected with the bottom plate, the insecticidal lamp top is equipped with rain-proof cover, rain-proof cover below is equipped with the under cover, be equipped with a plurality of mercury lamps between rain-proof cover and the under cover, the outside four corners that just is located dry. This solar pest killing lamp is equipped with the small-size motor between lamp pole and solar cell panel for it is rotatory to drive solar cell panel, is convenient for adjust solar cell panel and sunshine light irradiation angle.

However, the solar pest killing lamp is powered by solar energy, and when the sun is absent for a long time, the solar pest killing lamp cannot work due to the absence of electric energy, and thus pests cannot be removed. Therefore, there is an urgent need for a solar pest killing lamp which does not affect the removal of pests even without the sun for a long time.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides a LED solar insecticidal lamp for solve current solar insecticidal lamp and do not have under the condition of sunshine for a long time, and lead to not having the problem that the electric energy can't work. The utility model discloses a aerogenerator uses with solar photovoltaic board arranges in pairs, does not have under the condition of sunshine for a long time, can supply power for this insecticidal lamp through the wind energy that the fan generator produced, so just can not influence the normal use of this insecticidal lamp.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a LED solar insecticidal lamp, includes the lamp pole, the solar photovoltaic board is installed to the top surface of lamp pole, install first backup pad on the lamp pole, install aerogenerator in the first backup pad, aerogenerator and solar photovoltaic board are connected with same scene complementary control ware through the wire respectively, scene complementary control ware is connected with insecticidal lamp and battery respectively through the wire, the bottom surface of insecticidal lamp is installed and is LED worm mechanism, detection mechanism is installed to the top surface of insecticidal lamp.

The working principle is as follows: when sunlight exists, the solar photovoltaic panel converts light energy into electric energy and finally stores the electric energy in the storage battery through the conducting wire; when wind exists, the wind power generator converts wind energy into electric energy, the electric energy is finally stored in the storage battery through the conducting wire, and the storage battery supplies power to the insect killing lamp through the wind-solar complementary controller when the wind exists at night. Therefore, even if no sunlight exists, the power can be supplied to the insecticidal lamp, and the normal use of the insecticidal lamp is not influenced.

Additionally, the utility model discloses notice: firstly, the main effect of the wind-solar hybrid controller is to prevent the storage battery from being overcharged or overdischarged, the storage battery to be protected, and the model of the wind-solar hybrid controller can be selected from but not limited to JW 2430: the power of the solar photovoltaic panel and the wind power generator corresponds to the power of the wind-solar hybrid controller, for example, when the model of the wind-solar hybrid controller is JW2430, the power of the solar photovoltaic panel can be 150W, the power of the wind power generator can be 300W, and the use specifications of the wind-solar hybrid controller can be referred to for how the wind power generator, the solar photovoltaic panel and the insect killing lamp are respectively connected with the wind-solar hybrid controller.

As a preferred mode, the insecticidal lamp includes roof and hollow foundation, two crisscross bracing pieces are installed to the inherent horizontal direction of foundation, install the lock ring on the bracing piece, install a plurality of insecticidal lamps on the lock ring, the mid-mounting of bracing piece has the moth-killing lamp, the top surface of insecticidal lamp and moth-killing lamp all is connected with the bottom surface of roof, the top surface of roof is connected with the lamp pole through hanging the mechanism, the foundation with lead the worm mechanism and be connected.

As a preferable mode, an iron wire cover is arranged between the bottom ring and the top plate, a plurality of small holes are formed in the iron wire cover, and the diameters of the small holes are 8-20 mm.

As a preferred mode, hang the mechanism including installing the second backup pad on the lamp pole, the connecting block is installed to the bottom surface of second backup pad, the spliced pole of being connected with the roof is installed to the bottom surface of connecting block.

Preferably, the connecting column is connected with the connecting block through threads.

As a preferable mode, the insect guiding mechanism comprises a transition ring which is connected to the bottom ring and has a middle hole, the lower end of the transition ring is connected with a guide rod, the lower end of the guide rod is connected with an insect collecting box, and a guide groove which is communicated with the transition ring and the insect collecting box is formed in the guide rod.

As a preferable mode, the inner surfaces of the transition ring and the guide groove are coated with ultra-smooth coatings, and the pest collecting box is connected with the guide rod through threads.

As a preferred mode, the detection mechanism comprises a temperature sensor and a humidity sensor which are installed on the top surface of the top plate, and the temperature sensor and the humidity sensor are respectively connected with an external display device through leads.

The utility model has the advantages as follows:

(1) the utility model discloses a aerogenerator uses with solar photovoltaic board arranges in pairs, does not have under the condition of sunshine for a long time, can supply power for this insecticidal lamp through the wind energy that the fan generator produced, so just can not influence the normal use of this insecticidal lamp.

(2) The utility model discloses well insecticidal lamp includes roof and hollow foundation, and two crisscross bracing pieces each other are installed to the inherent horizontal direction of foundation, installs the lock ring on the bracing piece, installs a plurality of insecticidal lamps on the lock ring, and the mid-mounting of bracing piece has the moth-killing lamp, and the top surface of insecticidal lamp and moth-killing lamp all is connected with the bottom surface of roof, and the top surface of roof is connected with the lamp pole through hanging the mechanism. When the pest-killing lamp reaches night, the trap lamp and the pest-killing lamp are powered by the storage battery to emit light, the trap lamp attracts and flies pests to the pest-killing lamp by utilizing the characteristic that the pests tend to light, when the pests reach the pest-killing lamp, the pest-killing lamp is electrified to have higher temperature, the pests are contacted with pests and the like to kill the pests, and the killed pests are collected together through the pest guiding mechanism.

(3) The iron wire cover is arranged between the middle bottom ring and the top plate, the iron wire cover is provided with a plurality of small holes, and the diameters of the small holes are 8-20 mm. The iron wire cover can play the effect of protection to moth-killing lamp and insecticidal lamp on the one hand, and on the other hand flies into the iron wire cover when the pest receives the high temperature back of insecticidal lamp in, is difficult to fly out the iron wire cover again outside, can increase the probability of killing the pest like this.

(4) The utility model discloses in hang the mechanism including installing the second backup pad on the lamp pole, the connecting block is installed to the bottom surface of second backup pad, and the spliced pole of being connected with the roof is installed to the bottom surface of connecting block, through threaded connection between spliced pole and connecting block, and the convenience is connected the insecticidal lamp in the second backup pad like this, also convenient dismantles the insecticidal lamp from the second backup pad.

(5) The utility model discloses well lead worm mechanism including connect at the end circle and mesoporous transition circle, the lower extreme of transition circle is connected with the guide bar, the lower extreme of guide bar is connected with album worm box, open in the guide bar have with transition circle and album worm box all communicating guide way. The pests killed by the pest killing lamp finally fall into the pest collecting box from the transition ring and the guide groove in sequence, and the killed pests are collected by the pest collecting box in a unified manner, so that the unified treatment of the pests is facilitated; in addition, the pest killing device is helpful for preventing the pests which are not completely killed by the pest killing lamp from flying away, and trapping the pests which are not killed in the pest collecting box, so that the pest killing efficiency can be improved.

(6) The inner surfaces of the middle transition ring and the guide groove of the utility model are coated with the super-smooth coating, so that the pests killed by the insecticidal lamp can more easily fall into the pest collecting box, and the probability of escaping the pests which are not killed can be reduced; through threaded connection between collection worm box and guide bar, make things convenient for collection worm box to take off from the guide bar and go on with the installation.

(7) The utility model discloses well detection mechanism is including installing temperature sensor and the humidity transducer at the roof top surface, and temperature sensor and humidity transducer are connected with external display device through the wire respectively. The external display device is not limited to a computer and a mobile phone, the temperature sensor and the humidity sensor can respectively detect the temperature and the humidity of the insecticidal lamp, then the detected temperature and humidity data are transmitted to the computer through a wire, and then the computer is transmitted to the mobile phone of a relevant person, so that the relevant person can conveniently check the temperature and the humidity of the insecticidal lamp at any time, and the purpose of Internet of things is achieved; the temperature sensor and the humidity sensor are conventional sensors which can be easily purchased in the market, so the specific models of the sensors are not limited; in addition, it is easy for those skilled in the art to transfer the data detected by the temperature sensor and the humidity sensor to a computer and a mobile phone.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic view of the cross section of the insecticidal lamp according to the present invention;

FIG. 3 is an enlarged schematic view of the present invention at A in FIG. 1;

FIG. 4 is a schematic diagram of the circuit connection of the wind power generator, the solar photovoltaic panel, the wind-solar hybrid controller, etc. according to the present invention;

reference numerals: 1 insect collecting box, 2 guide bars, 3 guide grooves, 4 transition rings, 5 second supporting plates, 6 lamp poles, 7 solar photovoltaic panels, 8 wind driven generators, 9 first supporting plates, 10 wind-solar complementary controllers, 11 storage batteries, 12 iron wire covers, 121 small holes, 13 supporting rings, 14 supporting rods, 15 insect attracting lamps, 16 bottom rings, 17 top plates, 18 temperature sensors, 19 connecting columns, 20 connecting blocks, 21 humidity sensors and 22 insect killing lamps.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1:

as shown in fig. 1 to 4, the LED solar insect killing lamp comprises a lamp post 6, a solar photovoltaic panel 7 is installed on the top surface of the lamp post 6, a first supporting plate 9 is installed on the lamp post 6, a wind driven generator 8 is installed on the first supporting plate 9, the wind driven generator 8 and the solar photovoltaic panel 7 are respectively connected with a same wind-solar complementary controller 10 through wires, the wind-solar complementary controller 10 is respectively connected with an insect killing lamp 22 and a storage battery 11 through wires, an insect guiding mechanism is installed on the bottom surface of the insect killing lamp 22, and a detection mechanism is installed on the top surface of the insect killing lamp 22.

The working principle is as follows: when sunlight exists, the solar photovoltaic panel 7 converts light energy into electric energy and finally stores the electric energy in the storage battery 11 through a conducting wire; when wind exists, the wind power generator 8 converts wind energy into electric energy, the electric energy is finally stored in the storage battery 11 through a wire, and the storage battery 11 supplies power to the insect killing lamp 22 through the wind-solar hybrid controller 10 at night. Thus, even if no sunlight exists, the power can be supplied to the insecticidal lamp 22, and the normal use of the insecticidal lamp 22 is not influenced.

Additionally, the utility model discloses notice: firstly, the wind-solar hybrid controller 10 mainly functions to prevent the storage battery 11 from being overcharged or overdischarged, and plays a role in protecting the storage battery 11, and the model of the wind-solar hybrid controller 10 can be selected from but not limited to JW 2430; secondly, the power of the solar photovoltaic panel 7 and the wind power generator 8 corresponds to the power of the wind-solar hybrid controller 10, for example, when the model of the wind-solar hybrid controller 10 is JW2430, the power of the solar photovoltaic panel 7 may be 150W, the power of the wind power generator 8 may be 300W, and as for how the wind power generator 8, the solar photovoltaic panel 7 and the insecticidal lamp 22 are respectively connected with the wind-solar hybrid controller 10, the use specification of the wind-solar hybrid controller 10 can be referred to.

Example 2:

as shown in fig. 1-4, on the basis of the above embodiments, this embodiment provides a preferred structure of the insect-killing lamp, that is, the insect-killing lamp 22 includes a top plate 17 and a hollow bottom ring 16, two support rods 14 are installed in the bottom ring 16 in a horizontal direction, a support ring 13 is installed on the support rods 14, a plurality of insect-killing lamps 22 are installed on the support ring 13, an insect-attracting lamp 15 is installed in the middle of the support rods 14, the top surfaces of the insect-killing lamps 22 and the insect-attracting lamps 15 are both connected with the bottom surface of the top plate 17, and the top surface of the top plate 17 is connected with the lamp post 6 through a hanging mechanism. When the pests arrive at night, the trap lamp 15 and the pest killing lamp 22 are powered by the storage battery 11 to emit light, the trap lamp 15 attracts the pests and flies to the pest killing lamp 22 by utilizing the phototaxis characteristic of the pests, when the pests arrive at the pest killing lamp 22, the pest killing lamp 22 is powered on to have higher temperature, the pests are contacted with the pests and the like to kill the pests, and the killed pests are collected together through the pest guiding mechanism.

Preferably, a wire cover 12 is arranged between the bottom ring 16 and the top plate 17, a plurality of small holes 121 are formed in the wire cover 12, and the diameter of each small hole 121 is 8 mm-20 mm. Iron wire cover 12 can play the effect of protection to moth-killing lamp 15 and insecticidal lamp 22 on the one hand, and on the other hand flies into the high temperature back that receives insecticidal lamp 22 in iron wire cover 12 when the pest, is difficult to fly out outside iron wire cover 12 again, can increase the probability of killing the pest like this.

Preferably, hang the mechanism including installing second backup pad 5 on lamp pole 6, connecting block 20 is installed to the bottom surface of second backup pad 5, and spliced pole 19 of being connected with roof 17 is installed to the bottom surface of connecting block 20, passes through threaded connection between spliced pole 19 and connecting block 20, conveniently connects insecticidal lamp 22 on second backup pad 5 like this, also conveniently dismantles insecticidal lamp 22 from second backup pad 5.

Other parts of this embodiment are the same as those of the above embodiment, and are not described herein again.

Example 3:

as shown in fig. 1-4, on the basis of embodiments 1 and 2, this embodiment provides a preferred structure of the insect guiding mechanism, that is, the insect guiding mechanism includes a transition ring 4 connected to the bottom ring 16 and having a central hole, the lower end of the transition ring 4 is connected to a guide rod 2, the lower end of the guide rod 2 is connected to an insect collecting box 1, and a guide groove 3 communicated with both the transition ring 4 and the insect collecting box 1 is formed in the guide rod 2. The pests killed by the pest killing lamp 22 finally fall into the pest collecting box 1 from the transition ring 4 and the guide groove 3 in sequence, and the killed pests are collected by the pest collecting box 1 in a unified manner, so that the pests are conveniently treated in a unified manner; in addition, it helps prevent the pest which is not completely killed by the pest killing lamp 22 from flying away, trapping the non-killed pest in the pest collecting box 1, which can improve the efficiency of killing the pest.

Preferably, the inner surfaces of the transition ring 4 and the guide groove 3 are coated with ultra-smooth coatings, so that pests killed by the pest killing lamp 22 can easily fall into the pest collecting box 1, and the probability of escaping the pests which are not killed can be reduced; through threaded connection between album worm box 1 and guide bar 2, make things convenient for album worm box 1 to take off from guide bar 2 and go with the installation.

The other parts of this embodiment are the same as those of embodiments 1 and 2, and are not described herein again.

Example 4:

as shown in fig. 1-4, on the basis of embodiment 1, the present embodiment provides an internet of things mode of the insecticidal lamp, that is, the detection mechanism includes a temperature sensor 18 and a humidity sensor 21 installed on the top surface of the top plate 17, and the temperature sensor 18 and the humidity sensor 21 are respectively connected to an external display device through wires. The external display device is a computer and a mobile phone, the temperature sensor 18 and the humidity sensor 21 can respectively detect the temperature and the humidity of the insecticidal lamp 22, then the detected temperature and humidity data are transmitted to the computer through a wire, and then the computer transmits the data to the mobile phone of related personnel, so that the related personnel can conveniently check the temperature and the humidity of the insecticidal lamp 22 at any time, and the purpose of Internet of things is achieved; the temperature sensor 18 and the humidity sensor 21 are conventional sensors that are readily available on the market, and thus the specific type thereof is not limited; in addition, it is easy for those skilled in the art to transfer the data detected by the temperature sensor 18 and the humidity sensor 21 to a computer and a mobile phone.

The other parts of this embodiment are the same as embodiment 1, and are not described herein again.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly showing the verification process of the present invention, and are not used to limit the protection scope of the present invention, which is still subject to the claims, and all the equivalent structural changes made by using the contents of the specification and drawings of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a LED solar insecticidal lamp, includes lamp pole (6), solar photovoltaic board (7), its characterized in that are installed to the top surface of lamp pole (6): install first backup pad (9) on lamp pole (6), install aerogenerator (8) on first backup pad (9), aerogenerator (8) and solar photovoltaic board (7) are connected with same scene complementary control ware (10) through the wire respectively, scene complementary control ware (10) are connected with insecticidal lamp (22) and battery (11) respectively through the wire, the bottom surface of insecticidal lamp (22) is installed and is led worm mechanism, detection mechanism is installed to the top surface of insecticidal lamp (22).

2. The LED solar insecticidal lamp according to claim 1, characterized in that: insecticidal lamp (22) include roof (17) and hollow foundation ring (16), two crisscross bracing pieces (14) each other are installed to the inherent horizontal direction of foundation ring (16), install lock ring (13) on bracing piece (14), install a plurality of insecticidal lamps (22) on lock ring (13), the mid-mounting of bracing piece (14) has moth-killing lamp (15), the top surface of insecticidal lamp (22) and moth-killing lamp (15) all is connected with the bottom surface of roof (17), the top surface of roof (17) is connected with lamp pole (6) through hanging the mechanism, foundation ring (16) are connected with the insect guide mechanism.

3. The LED solar insecticidal lamp according to claim 2, characterized in that: install iron wire cover (12) between foundation ring (16) and roof (17), it has a plurality of apertures (121) to open on iron wire cover (12), the diameter of aperture (121) is 8 millimeters-20 millimeters.

4. The LED solar insecticidal lamp according to claim 2, characterized in that: hang mechanism including installing second backup pad (5) on lamp pole (6), connecting block (20) are installed to the bottom surface of second backup pad (5), spliced pole (19) of being connected with roof (17) are installed to the bottom surface of connecting block (20).

5. The LED solar insecticidal lamp according to claim 4, characterized in that: the connecting column (19) is in threaded connection with the connecting block (20).

6. The LED solar insecticidal lamp according to claim 2, characterized in that: lead worm mechanism including connect on foundation ring (16) and mesoporous transition circle (4), the lower extreme of transition circle (4) is connected with guide bar (2), the lower extreme of guide bar (2) is connected with album worm box (1), it has all communicating guide way (3) with transition circle (4) and album worm box (1) to open in guide bar (2).

7. The LED solar insecticidal lamp according to claim 6, characterized in that: the inner surfaces of the transition ring (4) and the guide groove (3) are coated with ultra-smooth coatings, and the pest collecting box (1) is connected with the guide rod (2) through threads.

8. The LED solar insecticidal lamp according to claim 1, characterized in that: the detection mechanism comprises a temperature sensor (18) and a humidity sensor (21) which are installed on the top surface of a top plate (17), and the temperature sensor (18) and the humidity sensor (21) are respectively connected with an external display device through wires.