CN220897684U

CN220897684U - Wind-suction type solar insect-killing lamp

Info

Publication number: CN220897684U
Application number: CN202322658220.0U
Authority: CN
Inventors: 邹鹏飞; 刘奎
Original assignee: Hubei Shuizhiyi Technology Co ltd
Current assignee: Hubei Shuizhiyi Technology Co ltd
Priority date: 2023-09-28
Filing date: 2023-09-28
Publication date: 2024-05-07
Anticipated expiration: 2033-09-28

Abstract

The utility model relates to a wind-sucking solar insect-killing lamp, which comprises a supporting rod with a hollow inside, wherein the top of the supporting rod is coaxially provided with a base, the base is of a hollow structure and is communicated with the supporting rod, the middle of the base is coaxially provided with a fan, the fan generates attractive force towards the supporting rod, a lampshade is arranged above the base, the outer side of the lampshade is provided with a plurality of openings, and the middle position of the top in the lampshade is provided with an insect-trapping lamp; the top of the lampshade is provided with a mounting chamber, a storage battery and a control circuit which are connected with each other are arranged in the mounting chamber, the top of the mounting chamber is obliquely provided with a solar panel, and the top of the solar panel is provided with a rain control sensor for monitoring rainwater; the periphery of the lampshade is coaxially sleeved with the isolation cover, an electric telescopic rod which is arranged along the direction of the intermediate shaft is arranged between the top of the isolation cover and the top of the installation chamber, and the isolation cover and the lampshade are driven by the electric telescopic rod to generate relative displacement along the axial direction. Is convenient for long-term insect supplementing, saves energy and automatically controls operation.

Description

Wind-suction type solar insect-killing lamp

Technical Field

The utility model relates to the technical field of environment-friendly insecticidal devices, in particular to an air suction type solar insecticidal lamp.

Background

The solar pest killing lamp is a novel environment-friendly device for killing pests through a physical method. In the pest control of grain crops, the pest control of economic crops and the pest control of fruit trees, the insecticidal composition can be applied to control various pests, has a plurality of insecticidal types and good insecticidal effect, and the external power supply is not needed, and the power requirement of the system can be met only by using the solar cell panel, so that the solar cell panel is one of important pest control means in modern agricultural production.

The existing insecticidal mode mainly comprises the step of spraying pesticides to kill pests. This approach has problems such as environmental pollution, and pesticide residues present a certain hazard to the health of humans and other organisms.

The existing insecticidal lamp device has poor self-control performance, is killed by means of electric shock, and continuously operates in rainy days with low capturing rate, so that energy consumption is high.

Disclosure of Invention

The utility model aims to overcome the defects, and provides the wind-absorbing solar insect-killing lamp, which adopts special light attractant and light source design, and improves the effect and stability of light trapping; meanwhile, the insect is sucked into the specific area through the large-suction fan, so that the insect is automatically caught and killed, the use and labor cost of pesticides are reduced, and the problems of large pesticide consumption, poor self-control and large energy consumption of the existing pesticide mode are solved.

The utility model aims to solve the technical problems, and adopts the technical scheme that: the wind-sucking type solar insect-killing lamp comprises a supporting rod with a hollow inside, wherein the top of the supporting rod is coaxially provided with a base which is of a hollow structure and is communicated with the supporting rod, the middle of the base is coaxially provided with a fan which generates attractive force towards the supporting rod, a lamp shade is arranged above the base and is communicated with the base, a plurality of openings are formed in the outer side of the lamp shade at equal intervals around a middle shaft, and a trap lamp is arranged in the middle position of the top in the lamp shade and is positioned right above the fan;

The top of the lampshade is provided with a mounting chamber, a storage battery and a control circuit which are connected with each other are arranged in the mounting chamber, the top of the mounting chamber is obliquely provided with a solar cell panel, and the top of the solar cell panel is provided with a rain control sensor for monitoring rainwater;

The periphery of the lampshade is coaxially sleeved with the isolation cover, an electric telescopic rod which is arranged along the direction of the intermediate shaft is arranged between the top of the isolation cover and the top of the installation chamber, and the isolation cover and the lampshade are driven by the electric telescopic rod to generate relative displacement along the axial direction.

Preferably, the solar panel charges a storage battery through a control circuit, and the storage battery discharges to supply power for the rain control sensor, the trap lamp, the fan and the electric telescopic rod through the control circuit.

More preferably, the rain control sensor receives the rain signal and transmits the rain signal to the control circuit, and the control circuit drives the electric telescopic rod to downwards output after receiving the rain signal and turns off the trap lamp and the fan.

Preferably, the fixed end of the electric telescopic rod is detachably and fixedly matched with the top of the installation chamber through the installation frame, and the output end of the electric telescopic rod is detachably and fixedly matched with the top of the isolation cover through the installation piece.

More preferably, the shielding cover completely shields all the openings under the drive of the electric telescopic rod.

Preferably, the installation chamber and the lampshade are integrally formed, and the top of the installation chamber is provided with an openable operation door.

Preferably, the lamp shade is communicated with the outside through the opening, and the light of the trap lamp is emitted out through the opening.

More preferably, the number of the holes is four, and the caliber of each hole is not smaller than the length of the trap lamp tube.

Preferably, the side bottom of the supporting rod is provided with an insect discharging port, and the insect discharging port is provided with an openable operation door.

More preferably, a bearing plane is arranged in the supporting rod at the insect discharge port, and the bearing plane is flush with the bottom of the insect discharge port.

The utility model has the beneficial effects that:

1. The utility model can effectively trap and kill various crop insect adults, reduce egg drop amount and achieve the aim of well controlling insect pests;

2. Solar energy is used as energy, no toxic or harmful chemical substances are used, no harm is brought to the environment and people and livestock, and the environment-friendly concept is met;

3. the rain control sensor is used for monitoring rain signals, the isolation cover is controlled to be closed to protect the internal device, insects are prevented from escaping, the fan and the trap lamp are operated automatically, energy is saved, and the automatic control performance is improved.

Drawings

FIG. 1 is a schematic perspective view of the cage of the present utility model when closed;

FIG. 2 is a schematic perspective view of the cage of the present utility model when opened;

FIG. 3 is a schematic diagram of the present utility model in front perspective;

FIG. 4 is a schematic diagram of a control connection of the present utility model;

In the figure: 1. a support rod; 2. a base; 3. a lamp shade; 4. opening holes; 5. a trap lamp; 6. a fan; 7. a solar cell panel; 8. a storage battery; 9. a control circuit; 10. a rain control sensor; 11. an insect discharging port; 12. a mounting chamber; 13. an electric telescopic rod; 14. and (5) isolating covers.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

As shown in fig. 1 to 4, as a preferred embodiment 1, a wind-absorbing solar insect-killing lamp comprises a supporting rod 1 with a hollow interior, wherein a base 2 is coaxially arranged at the top of the supporting rod 1, the base 2 is of a hollow structure and is communicated with the supporting rod 1, a fan 6 is coaxially arranged in the middle of the base 2, the fan 6 generates attractive force towards the supporting rod 1, a lamp shade 3 is arranged above the base 2, the lamp shade 3 is communicated with the base 2, a plurality of holes 4 are uniformly arranged on the outer side of the lamp shade 3 at intervals around a middle shaft, a trap lamp 5 is arranged in the middle position of the top in the lamp shade 3, and the trap lamp 5 is positioned right above the fan 6;

The top of the lampshade 3 is provided with an installation chamber 12, a storage battery 8 and a control circuit 9 which are connected with each other are arranged in the installation chamber 12, the top of the installation chamber 12 is obliquely provided with a solar panel 7, and the top of the solar panel 7 is provided with a rain control sensor 10 for monitoring rainwater;

The periphery of the lampshade 3 is coaxially sleeved with a shielding cover 14, an electric telescopic rod 13 arranged along the direction of the intermediate shaft is arranged between the top of the shielding cover 14 and the top of the installation chamber 12, and the shielding cover 14 and the lampshade 3 are driven by the electric telescopic rod 13 to generate relative displacement along the axial direction.

Embodiment 1 provides a wind-sucking solar insect-killing lamp, which is characterized in that insects are attracted into a lampshade 3 from an opening 4 through a trap lamp 5, the insects in the lampshade 3 are sucked into the supporting rod 1 through the attraction towards the supporting rod 1 generated by a fan 6 or directly hit and kill the insects falling into the supporting rod 1 by the fan 6, the insects in stock in the supporting rod 1 are difficult to fly out due to the relationship of negative pressure and fan hit, and finally, the insects die in the supporting rod 1 to finish insect killing;

the solar power generation mechanism formed by the solar panel 7, the control circuit 9 and the storage battery 8 supplies power to other devices, so that energy is cleaned, and the service time is prolonged;

The rain sensor 10 is used for monitoring rain water signals in real time, when rain is monitored, the signals are transmitted to the control circuit 9, the control circuit 9 controls the electric telescopic rod 13 to output, the isolation cover 14 slides downwards along the shaft and finally blocks all the openings 4, the control circuit 9 closes the operation of the trap lamp 5 and the fan 6, flying insects are usually avoided in the rain days, the insect killing lamp is difficult to catch, in order to avoid unnecessary energy waste, the trap lamp 5 and the fan 6 are shut down, the isolation cover 14 prevents the insects which are caught but not dead yet from escaping, and on the other hand protects the trap lamp 5 and the fan 6 in the lamp shade 3, prevents damage of internal devices in the rain days, and prolongs the service life of the devices; when the rain control sensor 10 monitors the rain-free signal again within a period of time, the fan 6 and the trap lamp 5 are turned on, and then the isolation cover 14 is turned on to capture and kill insects again, so that intelligent operation and efficient capture are realized.

As shown in fig. 4, as a preferred embodiment 2, the solar panel 7 charges the storage battery 8 through the control circuit 9, the storage battery 8 discharges to supply power to the rain sensor 10, the trap lamp 5, the fan 6 and the electric telescopic rod 13 through the control circuit 9, solar energy is used for supplying power to the device, and the storage battery 8 ensures that the device can continuously run in overcast and rainy days.

As shown in fig. 4, as a preferred embodiment 3, the rain control sensor 10 receives a rain signal and transmits the rain signal to the control circuit 9, and the control circuit 9 drives the electric telescopic rod 13 to output downwards after receiving the rain signal, and turns off the trap lamp 5 and the fan 6. The automatic control operation is convenient to realize, the rainwater signal monitored by the rainwater control sensor 10 is used as a reference, when the rainwater signal is monitored, the control circuit 9 drives the electric telescopic rod 13 to close the isolation cover 14, the fan 6 and the trap lamp 5 are closed, energy is saved, and when no rainwater signal is monitored, the control circuit 9 opens the fan 6 and the trap lamp 5, drives the electric telescopic rod 13 to open the isolation cover 14, and continues to catch and kill insects.

As a preferred embodiment 4, the fixed end of the electric telescopic rod 13 is detachably and fixedly matched with the top of the installation chamber 12 through the installation frame, and the output end of the electric telescopic rod 13 is detachably and fixedly matched with the top of the isolation cover 14 through the installation piece, so that the isolation cover 14 is ensured to synchronously move under the driving of the electric telescopic rod 14, and the relative displacement with the lampshade 3 is facilitated.

As a preferred embodiment 5, the shielding cover 14 completely shields all the openings 4 under the driving of the electric telescopic rod 13, preventing the caught and not-dead insects from escaping, and also preventing the internal devices from being damaged by rain.

As a preferred embodiment 6, the installation chamber 12 and the lampshade 3 are integrally formed, and the top of the installation chamber 12 is provided with an openable operation door, so that maintenance on each device is facilitated, and the storage battery 8 is convenient to replace.

As a preferred embodiment 7, the lampshade 3 is communicated with the outside through the opening 4, and the light of the trap lamp 5 is emitted out through the opening 4, so that the insect attracting efficiency is ensured, and the insects can conveniently receive the light and heat emitted by the trap lamp 5.

As a preferred embodiment 8, there are four openings 4, and the caliber of each opening 4 is not smaller than the length of the lamp tube of the trap lamp 5, so as to ensure the insect attracting efficiency.

As a preferable embodiment 9, the bottom of the side surface of the supporting rod 1 is provided with an insect discharging opening 11, and the insect discharging opening 11 is provided with an openable operation door, so that dead insects can be cleaned regularly.

As a preferred embodiment 10, a receiving plane is arranged in the supporting rod 1 at the insect discharge port 11, and the receiving plane is flush with the bottom of the insect discharge port 11, so that dead insects can be conveniently cleaned periodically.

As a preferred embodiment 11, the bottom of the supporting rod 1 is provided with a mounting plate, and four corners of the mounting plate are provided with mounting holes for mounting fixing pieces, so as to ensure the fixed mounting of the supporting rod 1.

The working principle of the utility model is as follows:

The utility model provides a wind-sucking solar insect-killing lamp, which is characterized in that insects are attracted into a lamp shade 3 from an opening 4 through a trap lamp 5, the insects in the lamp shade 3 are sucked into a support rod 1 through the attraction force towards the support rod 1 generated by a fan 6 or directly hit and killed by the fan 6 and fall into the support rod 1, the insects in stock in the support rod 1 are difficult to fly out due to the negative pressure and the fan hit relationship, and finally die in the support rod 1, so that the insect-killing is completed;

Claims

1. The wind-sucking type solar insect-killing lamp is characterized by comprising a supporting rod (1) with a hollow inside, wherein the top of the supporting rod (1) is coaxially provided with a base (2), the base (2) is of a hollow structure and is communicated with the supporting rod (1), a fan (6) is coaxially arranged in the middle of the base (2), the fan (6) generates attractive force towards the supporting rod (1), a lamp shade (3) is arranged above the base (2), the lamp shade (3) is communicated with the base (2), a plurality of openings (4) are formed in the outer side of the lamp shade (3) at equal intervals around a middle shaft, a trap lamp (5) is arranged in the middle position of the top in the lamp shade (3), and the trap lamp (5) is positioned right above the fan (6);

The top of the lampshade (3) is provided with an installation chamber (12), a storage battery (8) and a control circuit (9) which are connected with each other are arranged in the installation chamber (12), the top of the installation chamber (12) is obliquely provided with a solar panel (7), and the top of the solar panel (7) is provided with a rain control sensor (10) for monitoring rain water;

The periphery of the lampshade (3) is coaxially sleeved with the isolation cover (14), an electric telescopic rod (13) arranged along the direction of the intermediate shaft is arranged between the top of the isolation cover (14) and the top of the installation chamber (12), and the isolation cover (14) and the lampshade (3) are driven by the electric telescopic rod (13) to generate relative displacement along the axial direction.

2. The wind-absorbing solar insecticidal lamp according to claim 1, wherein said solar panel (7) charges a battery (8) through a control circuit (9), and wherein the battery (8) discharges to power a rain sensor (10), a trap lamp (5), a fan (6) and an electric telescopic rod (13) through the control circuit (9).

3. The wind-sucking solar insect-killing lamp according to claim 2, wherein the rain control sensor (10) receives a rain signal and transmits the rain signal to the control circuit (9), and the control circuit (9) drives the electric telescopic rod (13) to downwards output after receiving the rain signal and turns off the insect-trapping lamp (5) and the fan (6).

4. The wind-absorbing solar insecticidal lamp according to claim 1, wherein the fixed end of the electric telescopic rod (13) is detachably and fixedly matched with the top of the installation chamber (12) through a mounting frame, and the output end of the electric telescopic rod (13) is detachably and fixedly matched with the top of the isolation cover (14) through a mounting piece.

5. A wind-powered solar insecticidal lamp according to claim 4, wherein said screen (14) completely covers all openings (4) under the drive of an electric telescopic rod (13).

6. The wind-absorbing solar insecticidal lamp according to claim 1, wherein the installation chamber (12) and the lampshade (3) are integrally formed, and an openable operation door is arranged at the top of the installation chamber (12).

7. The wind-absorbing solar insecticidal lamp according to claim 1, wherein said lamp cover (3) is communicated with the outside through an opening (4), and the light of the insect trap lamp (5) is emitted through the opening (4).

8. The wind-absorbing solar insecticidal lamp according to claim 7, wherein the number of the holes (4) is four, and the caliber of the holes (4) is not smaller than the length of the lamp tube of the insect-attracting lamp (5).

9. The wind-absorbing solar insect-killing lamp according to claim 1, wherein an insect-discharging opening (11) is arranged at the bottom of the side face of the supporting rod (1), and an openable operation door is arranged at the insect-discharging opening (11).

10. Wind-absorbing solar energy insecticidal lamp according to claim 9, characterized in that a receiving plane is provided in the support bar (1) at the insect discharge opening (11), and the receiving plane is flush with the bottom of the insect discharge opening (11).