CN114586754B

CN114586754B - Insecticidal lamp

Info

Publication number: CN114586754B
Application number: CN202210376245.9A
Authority: CN
Inventors: 姜雷; 杨银琴; 韩伟君; 杨勇; 邓锋震; 黄仕凌
Original assignee: Sichuan Weimin Shuguang Technology Co ltd
Current assignee: Sichuan Weimin Shuguang Technology Co ltd
Priority date: 2022-04-11
Filing date: 2022-04-11
Publication date: 2023-06-27
Anticipated expiration: 2042-04-11
Also published as: CN114586754A

Abstract

The invention discloses an insecticidal lamp, which comprises an insecticidal lamp mounting column and an insecticidal lamp main body arranged on the insecticidal lamp mounting column; the insecticidal lamp main body comprises an upper base, a lower base and a power grid insecticidal part movably arranged between the upper base and the lower base, wherein a vibration module is further arranged on the upper base and drives the power grid insecticidal part to vibrate; the vibration module comprises a vibration plate and a vibration motor. The power grid insecticidal part can vibrate at a certain degree of high frequency during working, and can effectively prevent larger insects of individuals from being blocked between the inner net and the outer net, so that the cruising and insecticidal efficiency of the insecticidal lamp are ensured.

Description

Insecticidal lamp

Technical Field

The invention relates to the technical field of insect killing, in particular to an insect killing lamp.

Background

The insecticidal lamp is widely applied to the fields of agriculture, forestry, vegetables, gardens, orchards and the like, and has important significance in trapping and killing insects. The insect killing lamp is a device for trapping and killing insects by utilizing the phototaxis of the insects, which makes the insects strike on high voltage through the attraction of a specific spectral range, and the insects are stunned or killed through the high voltage, and the stunned or killed insects are collected in an insect receiving bottle, thus being a special device for preventing and treating insect pests and insect-borne diseases.

However, when insects fly to the LED lamp, the insects with larger heads often strike between the high-voltage power grids, the insects striking the high-voltage power grids can be stunned or killed, but the insects with larger heads can be just clamped between the high-voltage power grids, and as the insects always contain moisture, the corpses of the insects are in an uninsulated state, the high-voltage power grids are always in a discharge state, so that the endurance time of the insecticidal lamp is shortened; on the other hand, insects blocked on the high-voltage power supply network cannot fall, so that the insecticidal contact area of the insecticidal lamp can be reduced, the insecticidal efficiency of the insecticidal lamp is reduced, and therefore, a new insecticidal lamp is necessary to be provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the insecticidal lamp to solve the problem that insects are easy to clamp on a high-voltage power grid, so that the cruising and insecticidal efficiency of the insecticidal lamp are ensured.

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

an insecticidal lamp is provided, which comprises an insecticidal lamp mounting column and an insecticidal lamp main body arranged on the insecticidal lamp mounting column; the insecticidal lamp main body comprises an upper base, a lower base and an electric network insecticidal part movably arranged between the upper base and the lower base, wherein the lower base is bowl-shaped, an electric network support frame is fixed above the lower base, a connecting fixing column is arranged on the electric network support frame, one end of the connecting fixing column is fixed on the lower base, the other end of the connecting fixing column is fixed on the upper base, and the connecting fixing column is used for connecting the upper base and the lower base; at least one LED lamp is arranged at the lower end of the upper base, and a support hole for installing the LED lamp is arranged on the power grid support frame; the upper base is also provided with a vibration module, and the vibration module drives the power grid insecticidal part to vibrate.

Further, the vibration module comprises a vibration plate and a vibration motor; the power grid disinsection comprises an upper power grid seat, a lower power grid seat, and an inner net and an outer net which are fixed between the upper power grid seat and the lower power grid seat; the inner net and the outer net both comprise a plurality of longitudinal metal rods parallel to the axis of the main body of the insecticidal lamp and a plurality of transverse metal rods fixed at the upper end and the lower end of the longitudinal metal rods, the longitudinal metal rods and the transverse metal rods are connected to form a triangular prism surface, and the triangular prism surface formed by the inner net is inlaid in the triangular prism surface formed by the outer net; the longitudinal metal bars of the inner net are provided with bending protruding parts in the direction away from the axis of the insecticidal lamp main body, the bending protruding parts and the longitudinal metal bars of the outer net are located on the same plane, and the longitudinal metal bars of the inner net and the longitudinal metal bars of the outer net are arranged at intervals. The three-face positive and negative electrode inner and outer nets of the power grid insecticidal part form a triangular insecticidal area face, the positive and negative electrode inner and outer nets are integrally welded and formed, and the double-layer structure is on the same plane, so that the inner and outer nets are in contact with insects, and insects are killed better.

Further, three upper mounting columns are arranged at the top of the upper power grid seat, an upper mounting through hole matched with the upper mounting columns is formed in the upper base, clearance fit is achieved between the upper mounting columns and the upper mounting through hole, a first spring is arranged in the upper mounting through hole, the upper mounting columns penetrate through the upper mounting through hole and are fixedly connected with the vibrating plate, and the vibrating motor is fixed on the vibrating plate; three lower mounting columns are arranged at the bottom of the lower power grid seat, lower mounting through holes matched with the lower mounting columns are formed in the lower base, the mounting columns are in clearance fit with the lower mounting through holes, and a second spring is arranged in the lower mounting through holes; the first spring and the first spring enable the power grid insecticidal part to be in a suspension state, and the vibration motor drives the power grid insecticidal part to vibrate when vibrating.

Further, the intelligent remote control system also comprises a circuit board, a remote control board and a storage battery, wherein the circuit board, the remote control board and the storage battery are fixed at the top of the upper base; the circuit board is used for controlling the lamp tube to emit the insect attracting light source to attract insects, and the remote control board is used for better remote control of the opening and closing of the insect killing lamp.

Further, the inner net is separated from the upper electric net seat, the lower electric net seat, the outer net is separated from the upper electric net seat and the lower electric net seat through a plurality of ceramic insulating blocks, grooves for installing the ceramic insulating blocks are formed in the upper electric net seat and the lower electric net seat, and the ceramic insulating blocks are embedded in the grooves; the ceramic insulating block can effectively separate the inner net and the outer net, and the communication short circuit between the inner net and the outer net is avoided.

Further, the ceramic insulating block is divided into an upper insulating block and a lower insulating block, the upper insulating block is fixedly connected with the lower insulating block through screw connection, and the lower insulating block is provided with a wire groove for installing an inner net and an outer net; the ceramic insulating block is divided into an upper insulating block and a lower insulating block, the insulating effect of the upper side and the lower side of the inner net and the outer net can be guaranteed through clamping and fixing the inner net and the outer net, and meanwhile, the wire groove can be convenient for fixing the inner net and the outer net.

Further, the LED lamps are uniformly distributed everywhere, and the LED lamps are respectively distributed at the triangle of the equilateral triangle and the geometric center position of the triangle;

further, an outer shell is arranged above the upper base and fixedly connected with the upper base, and the outer shell is hemispherical.

Further, the power grid support frame is in a herringbone shape, a support frame mounting hole is formed in the bottom of the power grid support frame, an extension hole matched with the support frame mounting hole is formed in the lower base, and the support frame mounting hole is fixedly connected with the extension hole; three support frame mounting holes of the power grid support frame are matched with the extending holes on the lower base, so that the power grid support frame can be conveniently and fixedly mounted.

Further, the bottom of the lower base is provided with an opening, and the opening is connected with an insect receiving bottle for collecting insects; the insect receiving bottle is convenient for collecting insects falling from the power grid insect killing part, and meanwhile, the killed insects are convenient to treat.

Further, the insecticidal lamp mounting column is fixedly connected with the upper bottom cover and the lower bottom cover through the mounting bracket; the support is the "H" that stands on one side, and the one end of installing support is fixed on insecticidal lamp erection column, and the other end is fixed in insecticidal lamp main part, and the one end that installing support and insecticidal lamp main part are connected respectively with last base and lower base fixed connection.

Furthermore, two base support posts are arranged at the bottom of the insecticidal lamp mounting post in a penetrating way, and the base support posts are mutually vertical and are at a certain height from each other; when two base support posts are matched with the insecticidal lamp mounting post for use, the two vertically staggered base support posts are equivalent to the base, and the two base support posts are buried in the soil to play a role in fixing the insecticidal lamp mounting post, so that the fixation is firm.

The beneficial effects of the invention are as follows: under the action of the first springs and the second springs at the upper end and the lower end of the power grid insecticidal part, the power grid insecticidal part is always in a suspension state when in work or in a normal state, and the vibration motor transmits vibration to the power grid insecticidal part through the vibration plate and the upper power grid seat in sequence when the inner power grid and the outer power grid work to generate high-voltage electricity, so that the power grid insecticidal part can vibrate at high frequency to a certain extent when in work, and insects are killed in better contact; meanwhile, the vibration of the power grid insecticidal part can effectively prevent larger insects of individuals from being clamped between the inner net and the outer net, so that the endurance and the insecticidal efficiency of the insecticidal lamp are ensured.

Drawings

FIG. 1 is a schematic overall outline of the present invention;

fig. 2 is a schematic external view of the main body of the insecticidal lamp according to the present invention;

FIG. 3 is a schematic view showing the outer casing of the main body of the insecticidal lamp according to the present invention;

fig. 4 is a schematic outline view of the insecticidal part of the power grid in the invention;

fig. 5 is a schematic view of the external shape of the grid insecticidal part in another direction in the invention.

The main component symbols in the drawings are described as follows:

1. an insecticidal lamp mounting post; 2. a solar cell panel; 4. an insect receiving bottle; 5. a mounting bracket; 6. a base support;

3. an insecticidal lamp body; 31. an upper base; 32. a lower base; 33. an electric network insecticidal part; 34. a power grid support frame; 35. connecting the fixed column; 36. an LED lamp; 37. a vibration plate; 38. a vibration motor; 39. an outer housing; 341. a support frame mounting hole;

331. feeding a power grid seat; 332. a power grid seat is arranged; 334. an intranet; 335. an outer net; 336. an upper mounting column; 337. a first spring; 338. a lower mounting post; 339. a second spring; 330. ceramic insulating blocks.

Detailed Description

As shown in fig. 1 to 5, the insecticidal lamp as in fig. 1 comprises an insecticidal lamp mounting post 1, a solar panel 2 mounted on the insecticidal lamp mounting post 1, and an insecticidal lamp main body 3; the insecticidal lamp erection column 1 bottom runs through and is provided with two base pillars 6, and base pillar 6 mutually perpendicular just apart from certain height. The insecticidal lamp mounting column 1 is fixedly connected with the upper base 31 and the lower base 32 through the mounting bracket 5; the installing support 5 is the "H" that stands on one side, and the one end of installing support 5 is fixed on insecticidal lamp erection column 1, and the other end is fixed on insecticidal lamp main part 3, and the one end that installing support 5 and insecticidal lamp main part 3 are connected respectively with last base 31 and lower base 32 fixed connection. The bottom of the lower base 32 is provided with an opening to which the insect-receiving bottle 4 for collecting insects is connected. An outer shell 39 is further arranged above the upper base 31, the outer shell 39 is fixedly connected with the upper base 31, and the outer shell 39 is hemispherical.

As shown in fig. 2 and 3, the insecticidal lamp body 3 includes an upper base 31, a lower base 32, and a power grid insecticidal part 33 movably installed between the upper base 31 and the lower base 32, the lower base 32 is bowl-shaped, a power grid support frame 34 is fixed above the lower base 32, a connection fixing column 35 is arranged on the power grid support frame 34, one end of the connection fixing column 35 is fixed on the lower base 32, one end is fixed on the upper base 31, and the connection fixing column 35 is used for connecting the upper base 31 and the lower base 32; at least one LED lamp 36 is arranged at the lower end of the upper base 31, a support hole for installing the LED lamp 36 is formed in the power grid support frame 34, the support hole is used for fixedly supporting the bottom of the LED lamp 36, the LED lamps 36 are uniformly distributed around, illumination emitted by the insecticidal lamp from four directions is more uniform, and the four-sided insecticidal effect of the power grid insecticidal part is better. The upper base 31 is also provided with a vibration module which drives the power grid insecticidal part 33 to vibrate; the vibration module includes a vibration 37 plate and a vibration motor 38. As shown in fig. 3, a circuit board, a remote control board and a battery are further included, and the circuit board, the remote control board and the battery are fixed on top of the upper base 31. Wherein the electric wire netting support frame 34 is "people" style of calligraphy, and the bottom of electric wire netting support frame 34 is provided with three support frame mounting holes, is provided with on the lower base 32 with support frame mounting hole complex extension hole, support frame mounting hole and extension hole fixed connection. Further, the LED lamps 36 are uniformly distributed around, and the LED lamps 36 are respectively distributed at the triangle of the equilateral triangle and the geometric center thereof.

As shown in fig. 4 and 5, the grid insecticidal portion 33 includes an upper grid base 331, a lower grid base 332, and an inner grid 334 and an outer grid 335 fixed between the upper grid base 331 and the lower grid base 332; the inner net 334 and the outer net 335 comprise a plurality of longitudinal metal rods parallel to the axis of the insecticidal lamp main body 3 and a plurality of transverse metal rods fixed at the upper end and the lower end of the longitudinal metal rods, the longitudinal metal rods and the transverse metal rods are connected to form a triangular prism surface, and the triangular prism surface formed by the inner net 334 is sheathed inside the triangular prism surface formed by the outer net 335; the longitudinal metal bars of the inner net 334 are provided with bending protruding parts in the direction far away from the axis of the insecticidal lamp main body 3, the bending protruding parts and the longitudinal metal bars of the outer net 335 are located on the same plane, and the longitudinal metal bars of the inner net 334 and the longitudinal metal bars of the outer net 335 are arranged at intervals.

As shown in fig. 4 and 5, three upper mounting posts 336 are disposed at the top of the upper power grid base 331, an upper mounting through hole matched with the upper mounting posts 336 is disposed on the upper base 31, a first spring 337 is disposed in the upper mounting through hole and is in clearance fit with the upper mounting through hole, the first spring 337 is disposed at three positions, the upper mounting posts 336 penetrate through the upper mounting through hole and are fixedly connected with the vibration plate 37, the vibration motor 38 is fixed on the vibration plate 37, and the vibration plate 37 is V-shaped. Three lower mounting posts 338 are arranged at the bottom of the lower power grid seat 332, a lower mounting through hole matched with the lower mounting posts 338 is formed in the lower base 32, the lower mounting posts 338 are in clearance fit with the lower mounting through holes, a second spring 339 is arranged in the lower mounting through hole, and three positions are arranged on the second spring 339; the first spring 337 and the second spring 339 make the grid insecticidal part 33 in a suspension state, and the vibration motor 38 drives the grid insecticidal part 33 to vibrate when vibrating. The three-face positive and negative electrode inner and outer nets of the power grid insecticidal part form a triangular insecticidal area face, the positive and negative electrode inner and outer nets are integrally welded and formed, and the double-layer structure is on the same plane, so that the inner and outer nets are in contact with insects, and insects are killed better.

As shown in fig. 4 and 5, the inner net 334 is separated from the upper grid base 331, the lower grid base 332, and the outer net 335 by a plurality of ceramic insulating blocks, and the ceramic insulating blocks located in the upper grid base 331 and the lower grid base 332 are three. Grooves for installing ceramic insulating blocks are formed in the upper power grid seat 331 and the lower power grid seat 332, and the ceramic insulating blocks are embedded and installed in the grooves. The ceramic insulating block comprises an upper insulating block and a lower insulating block, the upper insulating block is fixedly connected with the lower insulating block through screw connection, and the lower insulating block is provided with a wire groove for installing the inner net 334 and the outer net 335.

The following description of the embodiments of the present invention is provided to facilitate understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and all the inventions which make use of the inventive concept are protected by the spirit and scope of the present invention as defined and defined in the appended claims to those skilled in the art.

Claims

1. An insecticidal lamp, characterized in that: comprises an insecticidal lamp mounting column (1) and an insecticidal lamp main body (3) arranged on the insecticidal lamp mounting column (1);

the insecticidal lamp comprises an upper base (31), a lower base (32) and a power grid insecticidal part (33) movably arranged between the upper base (31) and the lower base (32), wherein the lower base (32) is bowl-shaped, a power grid support frame (34) is fixed above the lower base (32), a connecting fixing column (35) is arranged on the power grid support frame (34), one end of the connecting fixing column (35) is fixed on the lower base (32), and the other end of the connecting fixing column is fixed on the upper base (31); at least one LED lamp (36) is arranged at the lower end of the upper base (31), and a support hole for mounting the LED lamp (36) is formed in the power grid support frame (34); the upper base (31) is also provided with a vibration module, and the vibration module drives the power grid insecticidal part (33) to vibrate; the vibration module comprises a vibration plate (37) and a vibration motor (38); the power grid disinsection (33) comprises an upper power grid seat (331), a lower power grid seat (332), and an inner network (334) and an outer network (335) which are fixed between the upper power grid seat (331) and the lower power grid seat (332); the inner net (334) and the outer net (335) comprise a plurality of longitudinal metal rods parallel to the axis of the insecticidal lamp main body (3) and a plurality of transverse metal rods fixed at the upper end and the lower end of the longitudinal metal rods, the longitudinal metal rods and the transverse metal rods are connected to form a triangular prism surface, and a triangular prism surface formed by the inner net (334) is inlaid in a triangular prism surface formed by the outer net (335); the longitudinal metal rods of the inner net (334) are provided with bending protruding parts in the direction away from the axis of the insecticidal lamp main body (3), the bending protruding parts and the longitudinal metal rods of the outer net (335) are located on the same plane, and the longitudinal metal rods of the inner net (334) and the longitudinal metal rods of the outer net (335) are arranged at intervals; three upper mounting columns (336) are arranged at the top of the upper power grid seat (331), an upper mounting through hole matched with the upper mounting columns (336) is formed in the upper base (31), clearance fit is achieved between the upper mounting columns (336) and the upper mounting through holes, a first spring (337) is further arranged in each upper mounting through hole, the upper mounting columns (336) penetrate through the upper mounting through holes and are fixedly connected with the vibrating plate (37), and the vibrating motor (38) is fixed on the vibrating plate (37); three lower mounting columns (338) are arranged at the bottom of the lower power grid seat (332), lower mounting through holes matched with the lower mounting columns (338) are formed in the lower base (32), the lower mounting columns (338) are in clearance fit with the lower mounting through holes, and a second spring (339) is arranged in the lower mounting through holes; the first spring (337) and the second spring (339) enable the power grid insecticidal part (33) to be in a suspension state, and the vibration motor (38) drives the power grid insecticidal part (33) to vibrate when vibrating.

2. An insecticidal lamp according to claim 1, wherein: the remote control device further comprises a circuit board, a remote control board and a storage battery, wherein the circuit board, the remote control board and the storage battery are fixed at the top of the upper base (31).

3. An insecticidal lamp according to claim 1, wherein: intranet (334) and last electric wire netting seat (331), lower electric wire netting seat (332) outer net (335) and last electric wire netting seat (331), lower electric wire netting seat (332) all separate through a plurality of ceramic insulation blocks, all be equipped with the recess of installation ceramic insulation block on going up electric wire netting seat (331), lower electric wire netting seat (332), the ceramic insulation block is inlayed and is installed in the recess.

4. A pesticidal lamp according to claim 3, wherein: the ceramic insulation block comprises an upper insulation block and a lower insulation block, the upper insulation block is fixedly connected with the lower insulation block through screws, and the lower insulation block is provided with a wire groove for installing the inner net (334) and the outer net (335).

5. An insecticidal lamp according to claim 1, wherein: an outer shell (39) is further arranged above the upper base (31), the outer shell (39) is fixedly connected with the upper base (31), and the outer shell (39) is hemispherical.

6. An insecticidal lamp according to claim 1, wherein: the power grid support frame (34) is in a Y shape, a support frame mounting hole (341) is formed in the bottom of the power grid support frame (34), an extension hole matched with the support frame mounting hole (341) is formed in the lower base (32), and the support frame mounting hole (341) is fixedly connected with the extension hole.

7. An insecticidal lamp according to claim 1, wherein: the bottom of the lower base (32) is provided with an opening, and the opening is connected with an insect receiving bottle (4) for collecting insects.

8. An insecticidal lamp according to claim 1, wherein: two base support posts (6) are arranged at the bottom of the insecticidal lamp mounting post (1) in a penetrating mode, and the base support posts (6) are perpendicular to each other and are at a certain height from each other.