CN212697328U - Solar self-cleaning insecticidal lamp - Google Patents

Abstract

The utility model discloses a solar energy type self-cleaning insecticidal lamp, which is provided with a lamp post and a solar panel arranged at the top of the lamp post, wherein an energy storage lithium battery is fixed under the solar panel through an anti-theft box and is used for providing power for the insecticidal lamp; cover on the insecticidal lamp and be connected with the rotating electrical machines, the output of rotating electrical machines passes through the one end rotation of motor rotation axis and rotatory driving lever and is connected, the other end of rotatory driving lever is fixed at inner support on the insecticidal lamp, rotatory driving lever drives inner support on the insecticidal lamp follow clockwise certain angle of rotation between the outer support on the insecticidal lamp, then rebound rapidly, the utility model discloses an insecticidal lamp can clear up automatically, and the moth gets into is traped to the moth fluorescent tube after the lamp circular telegram, and the outer electric wire netting of insecticidal lamp upper cover and inlayer electric wire netting circular telegram work simultaneously, and high voltage electric network make the worm by the electricity on the net, behind the rotatory inlayer electric wire netting for form certain distance difference between outer electric wire netting and the inlayer, can let the worm because the automatic collection worm bucket that falls down of the reason of gravity, accomplish the process of automatic clearance, improved work efficiency.

Description

Solar self-cleaning insecticidal lamp

Technical Field

The utility model belongs to the technical field of solar energy insecticidal lamp technique and specifically relates to a solar energy formula is from clear insecticidal lamp.

Background

The solar insect killing lamp utilizes the solar panel as a power source, stores electricity generated by solar energy in the daytime, and then puts the electricity to the insect killing lamp at night for the insect killing lamp to work. The insect killing lamp is characterized by that it utilizes the characteristic principle of that the ultraviolet light possesses strong phototaxis, colour-approaching and tropism to insects to define induction wavelength of insects, and develops a special-purpose light source, and utilizes the low-temp. plasma produced by discharge and the light-repelling excitation effect of ultraviolet light radiation to intergeneration of injurious insects to lure injurious insects to flap to the light source of lamp, and the exterior of the light source is equipped with high-pressure impact to kill injurious insects, so that the injurious insects can be fallen into the special-purpose box to attain the goal of killing injurious insects.

However, the collected insects are usually poured out by workers after several days, so that the collected insects are too concentrated for a while or how many pests are not killed for a while; not only the distribution of extravagant manpower, it is too much to have time to clear up in addition and leads to the pest in the collection worm box too much, influences its insecticidal effect. Secondly, the lamp source does not work sometimes, can not see during the day, needs the staff to look over at night, consequently seriously influences the effect of insecticidal, and intelligent ratio is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the aforesaid provided, provide a simple structure, convenient to use and can conveniently be from a solar energy formula self-cleaning insecticidal lamp of clear and early warning.

The purpose of the utility model is realized with the following mode: a solar energy type self-cleaning insecticidal lamp is provided with a lamp post and a solar panel arranged at the top of the lamp post, wherein an energy storage lithium battery is fixed below the solar panel through an anti-theft box and is used for providing power for the insecticidal lamp; the upper end of the lamp pole is connected with an insect killing lamp through a support, the insect killing lamp comprises an upper part, a middle part and a lower part, the upper part of the insect killing lamp is provided with an upper insect killing lamp cover, an upper insect killing lamp outer support and an upper insect killing lamp inner support, the upper insect killing lamp inner support is sleeved on the upper insect killing lamp outer support through a connecting support, and the upper insect killing lamp cover is sleeved on an outer ring of the upper insect killing lamp outer support; the insect killing lamp is characterized in that a rotating motor is connected to the upper cover of the insect killing lamp, the output end of the rotating motor is rotatably connected with one end of a rotating shifting rod through a motor rotating shaft, the other end of the rotating shifting rod is fixed to an inner support on the insect killing lamp, and the rotating shifting rod drives the inner support on the insect killing lamp to rapidly rebound after clockwise rotating by an angle between the upper support and the outer support of the insect killing lamp.

The more optimized scheme is that the solar self-cleaning insecticidal lamp is characterized in that a spring connecting piece is arranged between an upper inner support of the insecticidal lamp and an upper outer support of the insecticidal lamp.

The more optimized scheme is that the solar self-cleaning insecticidal lamp is characterized in that an outer-layer power grid, an inner-layer power grid and an insect trapping lamp tube are arranged in the middle of the insecticidal lamp, and the upper end and the lower end of the inner-layer power grid are respectively connected with an upper inner support of the insecticidal lamp and a lower inner support of the insecticidal lamp; the upper end and the lower end of the outer-layer power grid are respectively connected with the upper outer support of the insecticidal lamp and the lower outer support of the insecticidal lamp.

The more optimized scheme is that the solar self-cleaning insecticidal lamp is characterized in that the lower outer support of the insecticidal lamp at the bottom of the insecticidal lamp is connected with the end of an insect collecting barrel, warning scale marks are arranged on the surface of the periphery of the excircle of the insect collecting barrel, an infrared sensing device is arranged on the surface of the warning scale marks and used for providing a signal to a PLC (programmable logic controller) after the position of the largest bearing insect body is exceeded, and the PLC is arranged on the upper cover of the insecticidal lamp.

The more optimized scheme is that the lower part of the solar self-cleaning insecticidal lamp has the same structure as the upper part and is distributed in a vertical symmetrical way; the insect killing lamp is provided with an insect killing lamp lower cover, an insect killing lamp lower outer support and an insect killing lamp lower inner support, wherein the insect killing lamp lower inner support is connected with the insect killing lamp lower outer support through a connecting support, and the inner side of the insect killing lamp lower cover is sleeved with the insect killing lamp lower outer support.

The more optimized scheme is that the output signals of the outer-layer power grid, the inner-layer power grid and the insect-attracting lamp tube are respectively connected with the input end of the PLC and used for monitoring the state of the power grid.

The more optimized scheme is that the solar self-cleaning insecticidal lamp, the output end of the PLC is connected with the input end of the fault display screen and used for alarming and displaying the fault state.

The utility model has the advantages that: 1. the utility model discloses an insecticidal lamp can clear up automatically, what its main adoption was exactly that the lamp circular telegram back moth-killing lamp tube traps the worm and gets into, the outer electric wire netting of insecticidal lamp upper cover and inlayer electric wire netting circular telegram work simultaneously, high pressure makes the worm be the electricity on the net motionless bullet, behind the rotatory inlayer electric wire netting, make to form the distance difference between outer electric wire netting and the inlayer electric wire netting, can let the worm because the reason of gravity is automatic down to the collection worm bucket in, accomplish the process of automatic clearance, and the work efficiency is improved.

2. According to the technical scheme of the utility model, when the insect reaches a certain amount, the infrared sensor is triggered to reflect the signal to the PLC through the infrared sensor, so that the worker is prompted through the display screen, and the operation is convenient; and PLC can monitor the operation condition of every fluorescent tube and electric wire netting for the insecticidal lamp is more rationalized and intelligent.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a top view of the insecticidal lamp of fig. 1.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to specific embodiments shown in the drawings. However, these embodiments are not intended to limit the present invention, and the structural, method, or functional changes made by those skilled in the art according to these embodiments are all included in the scope of the present invention

As shown in fig. 1 and fig. 2, a solar energy type self-cleaning insecticidal lamp comprises a lamp post 1 and a solar panel 2 arranged on the top of the lamp post 1, wherein an energy storage lithium battery 3 is fixed below the solar panel 2 through an anti-theft box and used for providing power for the insecticidal lamp; the upper end of the lamp post 1 is connected with an insect killing lamp 4 through a bracket, the insect killing lamp 4 comprises an upper part, a middle part and a lower part, the upper part of the insect killing lamp 4 is provided with an insect killing lamp upper cover 41, an insect killing lamp upper outer bracket 42 and an insect killing lamp upper inner bracket 43, the insect killing lamp upper inner bracket 43 is sleeved on the insect killing lamp upper outer bracket 42 through a connecting bracket, and the insect killing lamp upper cover 41 is sleeved on the outer ring of the insect killing lamp upper outer bracket 42; the method is characterized in that: the upper cover 41 of the insecticidal lamp is connected with a rotating motor 11, the output end of the rotating motor 11 is rotatably connected with one end of a rotating shift lever 13 through a motor rotating shaft 12, the other end of the rotating shift lever 13 is fixed on an upper inner support 43 of the insecticidal lamp, the rotating shift lever 13 drives the upper inner support 43 of the insecticidal lamp to rotate clockwise between the upper outer support 42 of the insecticidal lamp, and the insecticidal lamp can rebound rapidly after rotating by a certain angle.

A spring connecting piece 14 is arranged between the upper inner support 43 of the insecticidal lamp and the upper outer support 42 of the insecticidal lamp. The middle part of the insecticidal lamp 4 is provided with an outer layer power grid 49, an inner layer power grid 47 and an insect trapping lamp tube 48, and the upper end and the lower end of the inner layer power grid 47 are respectively connected with the upper inner support 43 of the insecticidal lamp and the lower inner support 45 of the insecticidal lamp; the upper end and the lower end of the outer layer electric network 49 are respectively connected with the upper outer support 42 of the insecticidal lamp and the lower outer support 44 of the insecticidal lamp.

The outer support 44 under the insecticidal lamp in insecticidal lamp 4 bottom and the end connection of album worm bucket 6, the surface has warning scale mark 7 around the excircle of album worm bucket 6, and infrared sensing device 8 sets up on the surface of warning scale mark 7 for send signal to PLC9 after providing the position that surpasss the biggest weight of the insect-laden body, PLC arranges on the insecticidal lamp upper cover 41 of insecticidal lamp 4.

The lower part and the upper part of the insecticidal lamp 4 have the same structure and are distributed symmetrically up and down; the insect killing lamp fixing device is provided with an insect killing lamp lower cover 46, an insect killing lamp lower outer support 44 and an insect killing lamp lower inner support 45, wherein the insect killing lamp lower inner support 45 is connected with the insect killing lamp lower outer support 44 through a connecting support, and the inner side of the insect killing lamp lower cover 46 is sleeved with the insect killing lamp lower outer support 44.

The output signals of the outer layer power grid 49, the inner layer power grid 47 and the insect-attracting lamp tube 48 are respectively connected with the input end of the PLC9 and are used for monitoring the state of the power grids.

The output end of the PLC9 is connected with the input end of the fault display screen 10 and is used for alarming and displaying the fault state.

What its main adoption was exactly that the lamp circular telegram back lures the worm fluorescent tube to trap the worm and gets into, and the outer electric wire netting of insecticidal lamp upper cover and inlayer electric wire netting circular telegram work simultaneously, and the high pressure makes the worm not to move the bullet by the electricity on the net, and rotatory inlayer electric wire netting is back for form the distance difference between outer electric wire netting and the inlayer electric wire netting, can let the worm because the automatic down of the reason of gravity fall to the collection worm bucket in, accomplish the process of automatic clearance.

When the insect-attracting lamp tube 48 of the insect-killing lamp 4 breaks down, the signal is fed back to the PLC9, and the PLC9 displays the received signal on the fault display screen 10.

When dead insects on the insect collecting barrel 6 reach above the warning scale mark 7, signals triggering the infrared sensing device 8 are sent to the PLC9, the PLC9 displays the received signals on the fault display screen 10, and prompts workers to replace or pour the dead insects.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

The structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention does not have the substantial significance in the technology, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy which can be produced by the present invention and the purpose which can be achieved by the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention and the relative relationship between the terms.

Claims (7)

1. A solar energy type self-cleaning insecticidal lamp is provided with a lamp pole (1) and a solar panel (2) arranged at the top of the lamp pole (1), wherein an energy storage lithium battery (3) is fixed below the solar panel (2) through an anti-theft box and used for providing power for the insecticidal lamp; the upper end of the lamp pole (1) is connected with an insect-killing lamp (4) through a support, the insect-killing lamp (4) comprises an upper part, a middle part and a lower part, the upper part of the insect-killing lamp is provided with an insect-killing lamp upper cover (41), an insect-killing lamp upper outer support (42) and an insect-killing lamp upper inner support (43), the insect-killing lamp upper inner support (43) is sleeved on the insect-killing lamp upper outer support (42) through a connecting support, and the insect-killing lamp upper cover (41) is sleeved on the outer ring of the insect-killing lamp upper outer support (42); the method is characterized in that: the insecticidal lamp is characterized in that a rotary motor (11) is connected to the upper cover (41) of the insecticidal lamp, the output end of the rotary motor (11) is rotatably connected with one end of a rotary driving lever (13) through a motor rotating shaft (12), the other end of the rotary driving lever (13) is fixed to an upper inner support (43) of the insecticidal lamp, and the rotary driving lever (13) drives the upper inner support (43) of the insecticidal lamp to rapidly rebound between the upper outer support (42) of the insecticidal lamp along a clockwise rotation angle.

2. The solar-powered self-cleaning insecticidal lamp according to claim 1, wherein: a spring connecting piece (14) is arranged between the upper inner support (43) of the insecticidal lamp and the upper outer support (42) of the insecticidal lamp.

3. The solar-powered self-cleaning insecticidal lamp according to claim 2, wherein: the middle part of the insecticidal lamp (4) is provided with an outer layer power grid (49), an inner layer power grid (47) and an insect trapping lamp tube (48), and the upper end and the lower end of the inner layer power grid (47) are respectively connected with an upper inner support (43) and a lower inner support (45) of the insecticidal lamp; the upper end and the lower end of the outer layer power grid (49) are respectively connected with the upper outer support (42) and the lower outer support (44) of the insecticidal lamp.

4. The solar-powered self-cleaning insecticidal lamp according to claim 3, wherein: outer support (44) and the end connection of collection worm bucket (6) under insecticidal lamp (4) bottom insecticidal lamp, the surface has warning scale mark (7) around the excircle of collection worm bucket (6), and infrared sensing device (8) set up on the surface of warning scale mark (7) for send signal for PLC (9) after providing the position that surpasss the biggest weight of the insect body, PLC arranges on insecticidal lamp upper cover (41) of insecticidal lamp (4).

5. The solar-powered self-cleaning insecticidal lamp according to claim 4, wherein: the lower part and the upper part of the insecticidal lamp (4) have the same structure and are distributed in an up-and-down symmetrical manner; the insect killing lamp is provided with an insect killing lamp lower cover (46), an insect killing lamp lower outer support (44) and an insect killing lamp lower inner support (45), wherein the insect killing lamp lower inner support (45) is connected with the insect killing lamp lower outer support (44) through a connecting support, and the inner side of the insect killing lamp lower cover (46) is sleeved with the insect killing lamp lower outer support (44).

6. The solar-powered self-cleaning insecticidal lamp according to claim 5, wherein: and output signals of the outer-layer power grid (49), the inner-layer power grid (47) and the insect-attracting lamp tube (48) are respectively connected with the input end of the PLC (9) and used for monitoring the state of the power grids.

7. The solar-powered self-cleaning insecticidal lamp according to claim 6, wherein: and the output end of the PLC (9) is connected with the input end of the fault display screen (10) and used for alarming and displaying the fault state.

Images