CN116584464A - Inhalation type insecticidal lamp based on artificial intelligence technology and working method thereof - Google Patents

Abstract

The invention belongs to the technical field of insect killing lamps, in particular to a suction type insect killing lamp based on an artificial intelligence technology and a working method thereof, wherein the insect killing lamp comprises an insect killing lamp shell, a strip-shaped insect inlet is formed in the peripheral surface of the insect killing lamp shell, a fan is arranged on the insect killing lamp shell, an insect trapping lamp is arranged in an insect trapping and killing chamber, a hood-shaped insect killing power grid is arranged at the periphery of the insect trapping lamp, a pressing reset mechanism and a jacking impact mechanism are arranged in the insect killing lamp shell, an impact insect killing mechanism is arranged between an insect trapping chamber and an insect collecting chamber, and a control panel is arranged outside the insect killing lamp shell; according to the invention, the insect is led into the insect-killing lamp housing through the insect-trapping lamp and the fan, the hood-shaped insect-killing power grid kills the insect through the electric shock effect, the attachment of the insect corpse on the outer surface of the power grid is effectively prevented, the insect-killing mechanism is impacted to perform secondary insect-killing, the insect-killing effect and the insect-killing efficiency are obviously improved, the Wen Kuang monitoring and the automatic adaptive adjustment of the corresponding insect-killing lamp can be realized, and the intelligent degree is high.

Description

Inhalation type insecticidal lamp based on artificial intelligence technology and working method thereof

Technical Field

The invention relates to the technical field of insecticidal lamps, in particular to an inhalation type insecticidal lamp based on an artificial intelligence technology and a working method thereof.

Background

The insect killing lamp is a special device which is used for trapping insects and effectively killing the insects according to the characteristic of phototaxis of the insects and utilizing insect attracting light sources in a specific spectral range to which the insects are sensitive, reducing the insect disease index and preventing and controlling insect pests and insect-borne diseases, and is mainly used for killing the insect pests and reducing the use of pesticides;

the insect killing lamp in the prior art kills the flying insects entering the insect killing housing mainly through the power grid, but a large number of flying insect corpses are attached to the outer surface of the power grid after the insect killing lamp is used for a certain time, so that adverse effects can be caused on the service life of the power grid, adverse effects can be caused on the follow-up insect killing effect and the insect killing efficiency, and part of the flying insects which are not killed and eggs and viruses carried by the flying insects fall into a collecting chamber below together, so that the insect killing effect cannot be remarkably improved;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to provide a suction type insecticidal lamp based on an artificial intelligence technology and a working method thereof, and solves the problems that in the prior art, a large number of flying insect corpses are attached to the outer surface of a power grid after the suction type insecticidal lamp is used for a certain period of time, the service life of the power grid, the subsequent insecticidal effect and the insecticidal efficiency are adversely affected, part of the flying insects which are not killed and eggs and viruses carried by the flying insects fall into a collecting chamber below, and the insecticidal effect cannot be remarkably improved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the suction type insect killing lamp based on the artificial intelligence technology comprises an insect killing lamp shell, wherein a vertical mounting column is fixedly arranged on the insect killing lamp shell, an insect trapping and killing chamber and an insect collecting chamber are arranged in the insect killing lamp shell, the insect trapping and killing chamber is positioned above the insect collecting chamber, a plurality of groups of strip insect inlets communicated with the insect trapping and killing chamber are formed in the peripheral surface of the insect killing lamp shell, and an automatic sealing mechanism is correspondingly arranged on the insect killing lamp shell; the vertical mounting column is fixed with the trunk or the street lamp pole through a clamping and fixing mechanism, an umbrella-shaped upper housing is fixedly arranged at the top of the vertical mounting column through bolts, and a plurality of groups of solar power generation blocks are arranged on the upper surface of the umbrella-shaped upper housing; a fan is arranged on the insecticidal lamp shell, and an inlet of the fan is communicated with the insect collecting chamber;

the pest-trapping and killing chamber is internally provided with a pest-trapping lamp, the top of the pest-trapping lamp is fixedly connected with the inner top of the pest-killing lamp housing through a lamp body fixing column, the periphery of the pest-trapping lamp is provided with a hood-shaped pest-killing power grid, the bottom of the hood-shaped pest-killing power grid is closed, the inner top of the pest-killing lamp housing is provided with a pressing reset mechanism connected with the hood-shaped pest-killing power grid, the bottom side of the pest-trapping and killing chamber is provided with a jacking impact mechanism, and the jacking impact mechanism acts on the bottom of the hood-shaped pest-killing power grid; the bottom of the insecticidal lamp shell is provided with a detachable collecting box in a threaded connection mode, a plurality of groups of ultraviolet germicidal lamps are arranged in the insect-falling collecting chamber, and an impact insecticidal mechanism is arranged between the insect-trapping and insecticidal chamber and the insect-falling collecting chamber;

the control panel is arranged outside the insecticidal lamp shell and comprises a processor, a data storage module, a Wen Kuang monitoring and analyzing module and an operation regulating and controlling module; wen Kuang the monitoring and analyzing module is used for analyzing the temperature conditions of the corresponding insect-killing lamps and generating a trap lamp regulation signal, a wind speed regulation signal, a bidirectional regulation signal or no signal, and sending the trap lamp regulation signal, the wind speed regulation signal or the bidirectional regulation signal to the operation regulation module through the processor, wherein the operation regulation module reduces the power of the trap lamp when receiving the trap lamp regulation signal, improves the wind outlet velocity when receiving the wind speed regulation signal, reduces the power of the trap lamp when receiving the bidirectional regulation signal, and improves the wind outlet velocity.

Further, the specific operation process of the Wen Kuang monitoring analysis module includes:

acquiring the surface temperature of the trap lamp in the detection period and marking the surface temperature as lamp temperature data, calling a preset lamp temperature threshold value through a data storage module, performing numerical comparison on the lamp temperature data and the preset lamp temperature threshold value, and if the lamp temperature data is smaller than the preset lamp temperature threshold value, not generating a regulation signal; if the lamp temperature data is greater than or equal to a preset lamp temperature threshold value, acquiring the temperature of the environment corresponding to the insecticidal lamp and marking the temperature as ring temperature data, and performing difference calculation on the lamp temperature data and the ring temperature data to acquire a temperature difference coefficient; the method comprises the steps of calling a preset temperature difference threshold value through a data storage module, comparing a temperature difference coefficient with the preset temperature difference threshold value in a numerical mode, and generating a trap lamp regulation signal if the temperature difference coefficient is smaller than the preset temperature difference threshold value;

if the temperature difference coefficient is larger than or equal to a preset temperature difference threshold value, acquiring air outlet speed data of a corresponding insect killing lamp, calling a preset air outlet speed threshold value through a data storage module, carrying out numerical comparison on the air outlet speed data and the preset air outlet speed threshold value, if the air outlet speed data is larger than or equal to the preset air outlet speed threshold value, generating an insect trapping lamp regulation signal, if the air outlet speed data is smaller than the preset air outlet speed threshold value, carrying out differential value calculation on lamp temperature data and the preset lamp temperature threshold value to acquire a Wen Yu coefficient, calling a preset temperature threshold coefficient threshold value through a data storage module, and carrying out numerical comparison on a Wen Yu coefficient and the preset temperature threshold coefficient threshold value; if the Wen Yu coefficient is greater than or equal to a preset temperature threshold coefficient threshold value, generating a bidirectional regulation signal; and if the Wen Yu coefficient is smaller than the preset temperature threshold coefficient threshold value, generating a wind speed regulating signal.

Further, press from both sides tight fixed establishment includes the bar fixed block with vertical erection column fixed connection, one side that vertical erection column was kept away from to the bar fixed block passes through one side fixed connection of bolt and regulation seat, rotate through the bearing in the regulation seat and set up two-way screw rod, and two-way screw rod's one end wears out regulation seat and with rocking handle fixed connection, two-way screw rod's both ends threaded connection removes the stopper, the direction opening has been seted up to one side that the regulation seat was kept away from the bar fixed block, and remove the fixed connecting rod that sets up in one side of stopper, the one end that corresponds the removal stopper is kept away from to the connecting rod and press from both sides tight arc piece fixed connection, and the intrados of pressing from both sides tight arc piece is gone up fixedly and is set up anti-skidding anticreep layer.

Further, push down canceling release mechanical system and jacking impact mechanism and cooperate so that the reciprocal vibration in cover form insecticidal electric wire netting about, jacking impact mechanism is including fixed the vertical fixing base that sets up in the insecticidal room bottom intermediate position department of lure, the inside of vertical fixing base sets up central drive axle through the bearing rotation, the both sides of vertical fixing base set up horizontal rotation axle through the bearing rotation, and the top of central drive axle is connected with two sets of horizontal rotation axle meshing through first bevel gear group, the one end that vertical fixing base was kept away from to horizontal rotation axle is fixed to set up the eccentric wheel, and the outer peripheral face of eccentric wheel contacts with the bottom of cover form insecticidal electric wire netting.

Further, push down canceling release mechanical system is including fixed the annular housing that sets up at insecticidal lamp housing internal top, annular housing internal fixation sets up the annular plate, slide through the slide rail in the annular housing and set up down the annular plate, the annular plate is located the below of last annular plate down, and goes up the annular plate and down the fixed spring that pushes down that sets up between the annular plate.

Further, the outer peripheral face of vertical fixing base rotates and sets up the swivel ring, the multiunit dead lever is installed to the bottom of swivel ring, the bottom of dead lever and the one end fixed connection of horizon bar, and the bar brush sweep bar is installed to the bottom of horizon bar, first ring gear is installed to the inner peripheral face of swivel ring, rotate through the bearing in the vertical fixing base and set up vertical pole, the outer peripheral face of vertical pole is fixed to set up the second gear, and the second gear is connected with first ring gear meshing, the outer peripheral face of center drive shaft is fixed to set up first gear, and first gear is connected with the second gear meshing on the vertical pole.

Further, the impact insecticidal mechanism comprises a mounting plate fixedly arranged between the insect attracting insecticidal chamber and the insect collecting chamber, a plurality of groups of funnel openings are formed in the mounting plate, a center seat is fixedly arranged at the center of the bottom of the mounting plate, a plurality of groups of lateral connecting seats are fixedly arranged on the outer peripheral surface of the center seat, a rotating shaft is rotatably arranged at the top of the lateral connecting seats through a bearing, the top end of the rotating shaft upwards extends into the funnel openings, a plurality of groups of fixing rings are fixedly arranged on the outer peripheral surface of the rotating shaft from top to bottom, a plurality of groups of beating rods are fixedly arranged on the outer peripheral surface of each fixing ring, and the outer peripheral surfaces of the beating rods are uniformly provided with sharp teeth.

Further, driving motor is fixedly arranged at the bottom of the center seat through the motor seat, the output end of the driving motor is connected with the center driving shaft, a plurality of groups of transfer rods extending into the lateral connecting seat are rotatably arranged on the lateral connecting seat through bearings, the center driving shaft is meshed with each group of transfer rods through a second bevel gear set, and the transfer rods are meshed with corresponding rotating shafts through a third bevel gear set.

Further, the automatic sealing mechanism comprises a movable ring which is arranged on the outer peripheral surface of the insecticidal lamp body in a rotating mode, a plurality of groups of strip-shaped sealing blocks are arranged at the top of the movable ring and correspond to the strip-shaped insect inlets one to one, a connecting ring is fixedly arranged on the outer peripheral surface of the movable ring, a second annular gear is fixedly arranged on the inner peripheral surface of the connecting ring, which is close to the bottom side, an opening and closing motor is fixedly arranged on the outer peripheral surface of the insecticidal lamp body through a motor base, an output shaft is arranged at the output end of the opening and closing motor, a third gear is fixedly arranged at the top end of the output shaft, and the third gear is meshed with the second annular gear.

The working method of the inhalation type insecticidal lamp based on the artificial intelligence technology comprises the following steps:

step one, an automatic sealing mechanism enables a strip-shaped insect inlet to be in an open state, and a fan, a trap lamp and a hood-shaped insecticidal power grid are started;

step two, the insect trap lamp emits light to induce the flying insects to enter the insect-killing lamp housing, the fan enables the inside of the insect-trapping and killing chamber to be in a negative pressure state so as to suck the flying insects on the periphery of the insect-killing lamp housing into the insect-killing lamp housing, and the flying insects entering the insect-killing lamp housing touch a hood-shaped insect-killing power grid, and the hood-shaped insect-killing power grid kills the flying insects through the electric shock effect; in the electric shock insecticidal process, the cover-shaped insecticidal power grid is vibrated up and down in a reciprocating manner by the mutual cooperation of the pressing reset mechanism and the jacking impact mechanism, and flying insect corpses attached to the peripheral surface of the cover-shaped insecticidal power grid are vibrated down to ensure the continuous electric shock insecticidal effect;

thirdly, the flying insects after electric shock fall into the falling insect collecting chamber, and in the falling process, the flying insects are secondarily knocked and killed by the impact insecticidal mechanism, so that the insecticidal effect is ensured;

and fourthly, starting an ultraviolet sterilizing lamp, emitting ultraviolet rays by the ultraviolet sterilizing lamp, sterilizing the flying insect corpses through irradiation of the ultraviolet rays, killing eggs in the flying insect corpses, improving the usability, and finally falling into a detachable collection box which is used for collecting the flying insect corpses.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the insect-attracting lamp emits light to attract flying insects into the insect-killing lamp shell, the fan enables the insect-attracting and killing chamber to be in a negative pressure state so as to suck flying insects at the periphery of the insect-killing lamp shell into the insect-killing lamp shell, the hood-shaped insect-killing power grid kills the flying insects through the electric shock effect, the hood-shaped insect-killing power grid is mutually matched with the push-up impact mechanism and the push-down reset mechanism in the electric shock insect-killing process so as to vibrate the flying insect corpses attached to the outer surface up and down, the insect-killing effect and the insect-killing efficiency of the flying insect corpses attached to the outer surface of the power grid are prevented from being reduced due to the fact that a large number of flying insect corpses are attached to the outer surface of the power grid, the service life of the power grid is prevented from being adversely affected, the strip-shaped insect inlet is sealed when the automatic sealing mechanism is used for preventing rainwater from entering the insect-killing lamp shell to cause damage of internal components, the internal components are better protected, and the service life of the corresponding insect-killing lamp is prolonged;

2. the invention also uses the striking rod and the sharp teeth in the impact insecticidal mechanism to continuously impact the falling winged insects so as to kill the incompletely killed winged insects, thereby realizing the secondary impact and killing of the winged insects and ensuring the insecticidal effect; the ultraviolet sterilizing lamp emits ultraviolet rays to sterilize flying insect corpses and kill eggs in the flying insects through irradiation of the ultraviolet rays, so that the service performance is improved, the strip-shaped brush sweeping rod is used for conducting cleaning operation on the bottom side of the insect attracting and killing chamber in the electric shock insect killing process so that the flying insect corpses completely fall down, single motor driving is realized to ensure synchronous operation of power grid vibration operation, secondary impact killing operation and cleaning operation, the equipment cost and operation cost are reduced, the functions are various, the intelligent degree is high, and the use effect is good;

3. the temperature condition monitoring and analyzing module is used for analyzing the temperature condition and generating a trap lamp regulation signal, a wind speed regulation signal and a bidirectional regulation signal or generating no signal, the operation regulation module is used for reducing the power of the trap lamp when receiving the trap lamp regulation signal and improving the wind outlet speed when receiving the wind speed regulation signal; when the bidirectional regulating and controlling signal is received, the power of the insect trap lamp is reduced, and the air outlet speed is increased, or the insect trap lamp is temporarily stopped, so that the automatic adaptive adjustment of the working process of the corresponding insect killing lamp is realized, the safe and stable operation of the corresponding insect killing lamp is ensured, and the service life and the intelligent degree of the corresponding insect killing lamp are improved.

Drawings

For the convenience of those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

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

FIG. 2 is a schematic diagram of a push-down reset mechanism according to the present invention;

FIG. 3 is a schematic view of a jack-up impact mechanism according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic top view of a swivel in accordance with the present invention;

FIG. 6 is a schematic view of the structure of the impact insecticidal mechanism according to the present invention;

FIG. 7 is a schematic view of the attachment of the retaining ring to the striking rod (top view) of the present invention;

FIG. 8 is a schematic view of the clamping and fixing mechanism of the present invention (in top view);

FIG. 9 is an enlarged view of the self-sealing mechanism of FIG. 1;

FIG. 10 is a schematic view of the connection of the movable ring and the insecticidal lamp housing according to the present invention (top view);

FIG. 11 is a system block diagram of a control panel according to the present invention.

Reference numerals: 1. an insecticidal lamp housing; 2. a strip-shaped insect inlet; 3. a trap lamp; 4. a hood-like insecticidal grid; 5. pressing down the reset mechanism; 6. a jacking impact mechanism; 7. the insect killing mechanism is impacted; 8. a clamping and fixing mechanism; 9. an automatic sealing mechanism; 10. a vertical mounting column; 11. an umbrella-shaped upper housing; 12. an ultraviolet germicidal lamp; 13. a detachable collection box; 14. a lamp body fixing column; 51. an annular housing; 52. a lower annular plate; 53. pressing down the spring; 54. an upper annular plate; 61. a vertical fixing seat; 62. a horizontal rotation shaft; 63. an eccentric wheel; 64. a central drive shaft; 65. a first bevel gear set; 66. a horizontal bar; 67. a strip-shaped brush bar; 68. a rotating ring; 69. a first gear; 610. a vertical rod; 611. a second gear; 612. a first ring gear; 613. a fixed rod; 71. a mounting plate; 72. a funnel opening; 73. a driving motor; 74. a rotating shaft; 75. a lateral connecting seat; 76. a center seat; 77. a middle rotating rod; 78. a second bevel gear set; 79. a third bevel gear set; 710. a fixing ring; 711. striking the stick; 712. tines; 81. a bar-shaped fixing block; 82. clamping the arc-shaped block; 83. anti-slip and anti-delamination; 84. a connecting rod; 85. moving a limiting block; 86. a bidirectional screw; 87. a rocking handle; 88. an adjusting seat; 91. a strip-shaped closing block; 92. a movable ring; 93. a connecting ring; 94. a second ring gear; 95. opening and closing a motor; 96. an output shaft; 97. and a third gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

as shown in fig. 1-8, the suction type insect killing lamp based on the artificial intelligence technology provided by the invention comprises an insect killing lamp shell 1, wherein a vertical mounting column 10 is fixedly arranged on the insect killing lamp shell 1, an insect attracting and killing chamber and an insect collecting chamber are arranged in the insect killing lamp shell 1, the insect attracting and killing chamber is positioned above the insect collecting chamber, the part of the insect killing lamp shell 1 corresponding to the insect attracting and killing chamber is transparent, a plurality of groups of strip-shaped insect inlets 2 communicated with the insect attracting and killing chamber are formed in the peripheral surface of the insect killing lamp shell 1, an umbrella-shaped upper housing 11 is fixedly arranged at the top of the vertical mounting column 10 through bolts, a plurality of groups of solar power generation blocks are arranged on the upper surface of the umbrella-shaped upper housing 11, the solar power generation blocks convert solar energy into electric energy and store the electric energy through a storage battery, so that the insect killing lamp corresponding to the night is energy-saving and environment-friendly; a fan (the fan is in the prior art and is not shown in the figure) is arranged on the insecticidal lamp shell 1, the inlet of the fan is communicated with the insect collecting chamber, and the periphery of the insecticidal lamp shell 1 is in a negative pressure state under the action of the fan so as to suck flying insects on the periphery of the insecticidal lamp shell 1;

a trap lamp 3 is arranged in the trap and insecticidal chamber, the trap lamp 3 emits corresponding light to induce flying insects to enter by utilizing the phototaxis of flying insects, a corresponding operator can select the trap lamp 3 with corresponding lighting color and model according to the needs, the top of the trap lamp 3 is fixedly connected with the inner top of the insecticidal lamp shell 1 through a lamp body fixing column 14, a cover-shaped insecticidal grid 4 is arranged on the periphery of the trap lamp 3, the bottom of the cover-shaped insecticidal grid 4 is sealed to prevent flying insects from entering the trap lamp, a downward-pressing reset mechanism 5 connected with the cover-shaped insecticidal grid 4 is arranged at the inner top of the insecticidal lamp shell 1, the downward-pressing reset mechanism 5 comprises an annular cover shell 51, the annular cover 51 is fixedly arranged at the inner top of the insecticidal lamp shell 1, an upper annular plate 54 is fixedly arranged in the annular cover 51, a lower annular plate 52 is arranged in the annular cover 51 in a sliding manner through a sliding rail, the lower annular plate 52 is positioned below the upper annular plate 54, and a downward-pressing spring 53 is fixedly arranged between the upper annular plate 54 and the lower annular plate 52;

the jacking impact mechanism 6 is installed to the bottom side of insect-attracting insecticidal room, push down canceling release mechanical system 5 and jacking impact mechanism 6 cooperate so that the reciprocal vibration of cover form insecticidal electric wire netting 4 from top to bottom, further, jacking impact mechanism 6 includes vertical fixing base 61, vertical fixing base 61 is fixed to be set up in insect-attracting insecticidal room bottom intermediate position department, the inside of vertical fixing base 61 sets up central drive shaft 64 through the bearing rotation, the both sides of vertical fixing base 61 set up horizontal rotation axle 62 through the bearing rotation, and the top of central drive shaft 64 is connected with two sets of horizontal rotation axle 62 meshing through first bevel gear group 65, the one end that vertical fixing base 61 was kept away from to horizontal rotation axle 62 is fixed to be set up eccentric wheel 63, and the outer peripheral face of eccentric wheel 63 contacts with the bottom of cover form insecticidal electric wire netting 4.

The bottom of the insecticidal lamp shell 1 is provided with a detachable collecting box 13 in a threaded connection mode, the detachable collecting box 13 collects flying insect corpses, a plurality of groups of ultraviolet sterilizing lamps 12 are arranged in an insect collecting chamber, the ultraviolet sterilizing lamps 12 emit ultraviolet rays to sterilize the flying insect corpses and kill eggs in the flying insects through the irradiation of the ultraviolet rays, the use performance is improved, and an impact insecticidal mechanism 7 is arranged between an insect attracting insecticidal chamber and an insect collecting chamber; specifically, the impact insecticidal mechanism 7 comprises a mounting plate 71 fixedly arranged between an insect-attracting insecticidal chamber and an insect-falling collecting chamber, a plurality of groups of funnel openings 72 are formed in the mounting plate 71, the funnel openings 72 are communicated with the insect-attracting insecticidal chamber and the insect-falling collecting chamber, a center seat 76 is fixedly arranged at the center of the bottom of the mounting plate 71, a driving motor 73 is fixedly arranged at the bottom of the center seat 76 through a motor seat, and the output end of the driving motor 73 is connected with a center driving shaft 64;

the outer peripheral surface of the center seat 76 is fixedly provided with a plurality of groups of lateral connecting seats 75, a plurality of groups of middle rotating rods 77 extending into the lateral connecting seats 75 are rotatably arranged on the lateral connecting seats 75 through bearings, the center driving shaft 64 is in meshed connection with each group of middle rotating rods 77 through a second bevel gear group 78, the top of the lateral connecting seats 75 is rotatably provided with a rotating shaft 74 through bearings, the middle rotating rods 77 are in meshed connection with the corresponding rotating shafts 74 through a third bevel gear group 79, the top ends of the rotating shafts 74 extend upwards into the hopper openings 72, the outer peripheral surface of the rotating shafts 74 is fixedly provided with a plurality of groups of fixing rings 710 from top to bottom, the outer peripheral surface of each fixing ring 710 is fixedly provided with a plurality of groups of striking rods 711, the outer peripheral surfaces of the striking rods 711 are uniformly provided with sharp teeth 712, and the sharp teeth 712 are arranged to help to strike and kill flying insects.

The vertical installation column 10 is fixed with a trunk or a street lamp pole through the clamping and fixing mechanism 8, further, the clamping and fixing mechanism 8 comprises a strip-shaped fixing block 81, one side of the strip-shaped fixing block 81 is fixedly connected with the vertical installation column 10, one side of the strip-shaped fixing block 81, which is far away from the vertical installation column 10, is fixedly connected with one side of an adjusting seat 88 through a bolt, a bidirectional screw 86 is rotatably arranged in the adjusting seat 88 through a bearing, one end of the bidirectional screw 86 penetrates out of the adjusting seat 88 and is fixedly connected with a rocking handle 87, two ends of the bidirectional screw 86 are in threaded connection with a movable limiting block 85, a guide opening is formed on one side of the adjusting seat 88, which is far away from the strip-shaped fixing block 81, a connecting rod 84 is fixedly arranged on one side of the movable limiting block 85, and one end of the connecting rod 84, which is far away from the corresponding movable limiting block 85, is fixedly connected with the clamping arc block 82;

when the corresponding insecticidal lamp is installed, the two groups of clamping arc blocks 82 are placed between vertical cylindrical or circular-tube-shaped objects such as trunks and street lamp poles, the rocking handle 87 is rotated to enable the bidirectional screw rod 86 to rotate along with the two groups of clamping arc blocks, the two groups of moving limiting blocks 85 correspondingly move along with the bidirectional screw rod, the distance between the two groups of clamping arc blocks 82 is continuously reduced under the driving action of the two groups of connecting rods 84 until the two groups of clamping arc blocks 82 clamp the corresponding vertical cylindrical or circular-tube-shaped objects, the corresponding insecticidal lamp is installed, the insecticidal lamp is convenient to install and detach, the disassembly process is time-saving and labor-saving, and the use is facilitated; preferably, the anti-slip and anti-delamination layer 83 is fixedly arranged on the inner cambered surface of the clamping arc block 82, and anti-slip and anti-delamination convex particles are uniformly arranged on the surface of the anti-slip and anti-delamination layer 83, so that the clamping and fixing effects are improved, and the corresponding insecticidal lamp is prevented from falling and being damaged.

Embodiment two:

as shown in fig. 3-4, the difference between this embodiment and embodiment 1 is that the outer peripheral surface of the vertical fixing seat 61 is rotatably provided with a rotating ring 68, the bottom of the rotating ring 68 is fixedly provided with a plurality of groups of fixing rods 613, the bottom end of the fixing rods 613 is fixedly connected with one end of the horizontal rod 66, the bottom of the horizontal rod 66 is provided with a strip-shaped brushing rod 67, the bottom of the strip-shaped brushing rod 67 is provided with bristles, the inner peripheral surface of the rotating ring 68 is provided with a first annular gear 612, the vertical fixing seat 61 is rotatably provided with a vertical rod 610 through a bearing, the outer peripheral surface of the vertical rod 610 is fixedly provided with a second gear 611, the second gear 611 is in meshed connection with the first annular gear 612, the outer peripheral surface of the central driving shaft 64 is fixedly provided with a first gear 69, and the first gear 69 is in meshed connection with the second gear 611 on the vertical rod 610;

when the central driving shaft 64 rotates, the vertical rod 610 is rotated through the first gear 69 and the second gear 611, the vertical rod 610 rotates the rotating ring 68 through the second gear 611 and the first annular gear 612, so that the corresponding horizontal rods 66 are driven to revolve around the vertical fixing seat 61 through the groups of fixing rods 613, the groups of strip-shaped brushing rods 67 revolve along with the revolution and sweep the bottom side of the insect attracting and killing chamber, so that flying bodies attached to the bottom side are completely swept into the groups of hopper openings 72, secondary killing and flying body collection of flying insects are facilitated, and cleaning operation is realized without additional driving equipment, so that equipment cost and running cost are reduced, the matching performance and synchronous running of all groups of components are guaranteed, the functions are multiple, and the use effect is good.

Embodiment III:

as shown in fig. 1 and fig. 9-10, the difference between the present embodiment and embodiment 1 and embodiment 2 is that an automatic sealing mechanism 9 is correspondingly installed on the insecticidal lamp housing 1, the automatic sealing mechanism 9 includes a movable ring 92, the movable ring 92 is rotatably installed on the outer peripheral surface of the insecticidal lamp housing 1, a plurality of groups of strip-shaped sealing blocks 91 are installed on the top of the movable ring 92, the strip-shaped sealing blocks 91 are in one-to-one correspondence with the strip-shaped insect inlets 2, a connecting ring 93 is fixedly installed on the outer peripheral surface of the movable ring 92, a second annular gear 94 is fixedly installed on the inner peripheral surface of the connecting ring 93 close to the bottom side, an opening and closing motor 95 is fixedly installed on the outer peripheral surface of the insecticidal lamp housing 1 through a motor seat, an output shaft 96 is installed at the output end of the opening and closing motor 95, a third gear 97 is fixedly installed on the top end of the output shaft 96, and the third gear 97 is in meshed connection with the second annular gear 94;

when raining, start and stop motor 95 starts so that output shaft 96 rotates, output shaft 96 drives go-between 93 through third gear 97 and second ring gear 94 and rotates around the centre of a circle of insecticidal lamp casing 1, the expansion ring 92 rotates thereupon, until each group bar seals piece 91 and seals bar inlet 2 one by one, prevent that the rainwater from getting into insecticidal lamp casing 1 and causing the inside parts to damage, play better guard action to inside parts, promote the life of corresponding insecticidal lamp, preferably, the top of casing 11 is equipped with rain sensor on the umbrella, rain sensor detects the rainwater, help realizing the automatic sealing of bar inlet 2.

Embodiment four:

as shown in fig. 11, the difference between the present embodiment and embodiments 1, 2, and 3 is that a control panel is installed outside the insecticidal lamp housing 1, the control panel includes a processor, a data storage module, a Wen Kuang monitoring and analyzing module, and an operation control module, and the processor is in communication connection with the data storage module, the Wen Kuang monitoring and analyzing module, and the operation control module; wen Kuang the monitoring and analyzing module analyzes the temperature conditions of the corresponding insecticidal lamp, and the specific analysis process of Wen Kuang analysis is as follows:

acquiring the surface temperature of the trap lamp 3 in the detection period and marking the surface temperature as lamp temperature data, calling a preset lamp temperature threshold value through a data storage module, performing numerical comparison on the lamp temperature data and the preset lamp temperature threshold value, and if the lamp temperature data is smaller than the preset lamp temperature threshold value, indicating that the current temperature of the corresponding trap lamp 3 is normal, and not generating a regulating signal; if the lamp temperature data is greater than or equal to a preset lamp temperature threshold value, the current temperature corresponding to the insect trap lamp 3 is excessively high, the temperature corresponding to the environment of the insect trap lamp is obtained and marked as ring temperature data, the difference value between the lamp temperature data and the ring temperature data is calculated to obtain a temperature difference coefficient, and the larger the numerical value of the temperature difference coefficient is, the larger the internal and external temperature difference of the insect trap lamp is; the method comprises the steps that a preset temperature difference threshold value is called through a data storage module, a temperature difference coefficient is compared with the preset temperature difference threshold value in a numerical mode, if the temperature difference coefficient is smaller than the preset temperature difference threshold value, at the moment, the air flow in the interior is quickened through air speed regulation and control to conduct heat dissipation, the required cooling and heat dissipation effects are difficult to achieve, and a trap lamp regulation and control signal is generated;

if the temperature difference coefficient is greater than or equal to a preset temperature difference threshold value, acquiring air outlet speed data of the corresponding insect killing lamp, calling the preset air outlet speed threshold value through a data storage module, carrying out numerical comparison on the air outlet speed data and the preset air outlet speed threshold value, and if the air outlet speed data is greater than or equal to the preset air outlet speed threshold value, indicating that a better heat dissipation effect cannot be achieved by adjusting the air outlet speed currently, generating an insect trapping lamp regulation signal; if the air outlet speed data is smaller than the preset air outlet speed threshold value, calculating the difference value between the lamp temperature data and the preset lamp temperature threshold value to obtain a Wen Yu coefficient, calling the preset temperature threshold coefficient threshold value through the data storage module, and comparing the Wen Yu coefficient with the preset temperature threshold coefficient threshold value in a numerical mode; if the Wen Yu coefficient is greater than or equal to a preset temperature threshold coefficient threshold value, generating a bidirectional regulation signal; and if the Wen Yu coefficient is smaller than the preset temperature threshold coefficient threshold value, generating a wind speed regulating signal.

The temperature condition monitoring and analyzing module is used for analyzing the temperature condition and generating a trap lamp regulation signal, a wind speed regulation signal, a bidirectional regulation signal or no signal, the trap lamp regulation signal, the wind speed regulation signal or the bidirectional regulation signal is sent to the operation regulation module through the processor, the power of the trap lamp 3 is reduced when the operation regulation module receives the trap lamp regulation signal, and the wind outlet speed is increased when the operation regulation module receives the wind speed regulation signal; when the bidirectional regulating and controlling signal is received, the power of the trap lamp 3 is reduced, and the air outlet speed is increased, or the trap lamp 3 is temporarily stopped, so that the automatic adaptive adjustment of the working process of the corresponding insect killing lamp is realized, the safe and stable operation of the corresponding insect killing lamp is ensured, and the service life and the intelligent degree of the corresponding insect killing lamp are improved.

When the insect-killing lamp is used, the strip-shaped insect inlet 2 is sealed through the automatic sealing mechanism 9 when raining, so that the damage of internal components caused by the rainwater entering the insect-killing lamp housing 1 is prevented, the internal components are well protected, and the service life of the corresponding insect-killing lamp is prolonged; when insect attracting and killing are needed at night, the automatic sealing mechanism 9 enables the strip-shaped insect inlet 2 to be in an open state, the insect attracting lamp 3 emits light to attract flying insects into the insect killing lamp housing 1, the fan enables the insect attracting and killing chamber to be in a negative pressure state to suck flying insects on the periphery of the insect killing lamp housing 1 into the insect killing lamp housing 1, and the flying insects entering the insect killing lamp housing 1 touch the hood-shaped insect killing power grid 4, and the hood-shaped insect killing power grid 4 kills the flying insects through electric shock;

the flying insects after electric shock fall into the falling insect collecting chamber, firstly fall into each group of hopper openings 72 in the falling process of the flying insects, the driving motor 73 in the impact insect killing mechanism 7 drives the central driving shaft 64 to rotate, the central driving shaft 64 drives each group of rotating shafts 74 to rotate through the middle rotating rod 77, the fixed ring 710 rotates along with the central driving shaft, and the falling flying insects are continuously impacted through the impact rod 711 and the sharp teeth 712, so that the flying insects which are not killed are killed, the secondary impact insect killing of the flying insects is realized, and the insect killing effect is ensured; the ultraviolet sterilizing lamp 12 emits ultraviolet rays to sterilize the flying insect corpses and kill eggs in the flying insects through the irradiation of the ultraviolet rays, so that the usability is improved, and the detachable collecting box 13 collects the flying insect corpses;

in addition, in the process of electric shock disinsection, the central driving shaft 64 drives the horizontal rotating shaft 62 in the jacking impact mechanism 6 to rotate, the two groups of eccentric wheels 63 eccentrically rotate along the vertical direction, the cover-shaped disinsection grid 4 reciprocates up and down under the cooperation of the eccentric wheels 63 and the downward-pressing springs 53 in the downward-pressing reset mechanism 5, the cover-shaped disinsection grid 4 shakes away flying corpses attached to the outer surface through continuous vibration, so that the disinsection effect and disinsection efficiency of the grid are prevented from being reduced due to the fact that a large number of flying corpses are attached to the outer surface of the grid, and the service life of the grid is prevented from being adversely affected; and, the center drive shaft 64 also indirectly drives the strip-shaped brush sweeping rod 67 to conduct cleaning operation of the bottom side of the insect attracting and killing chamber, so that single motor driving is realized to ensure synchronous operation of power grid vibration operation, secondary impact killing operation and cleaning operation, equipment cost and operation cost are reduced, functions are various, intelligent degree is high, and using effect is good.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The suction type insecticidal lamp based on the artificial intelligence technology comprises an insecticidal lamp housing (1), wherein a vertical mounting column (10) is fixedly arranged on the insecticidal lamp housing (1), an insect-attracting and killing chamber and an insect-falling collecting chamber are arranged in the insecticidal lamp housing (1), and the insect-attracting and killing chamber is positioned above the insect-falling collecting chamber, and the suction type insecticidal lamp is characterized in that a plurality of groups of strip-shaped insect inlets (2) communicated with the insect-attracting and killing chamber are formed in the peripheral surface of the insecticidal lamp housing (1), and an automatic sealing mechanism (9) is correspondingly arranged on the insecticidal lamp housing (1); the vertical mounting column (10) is fixed with a trunk or a street lamp pole through a clamping and fixing mechanism (8), an umbrella-shaped upper housing (11) is fixedly arranged at the top of the vertical mounting column (10) through bolts, and a plurality of groups of solar power generation blocks are arranged on the upper surface of the umbrella-shaped upper housing (11); a fan is arranged on the insecticidal lamp housing (1), and an inlet of the fan is communicated with the insect collecting chamber;

the pest-trapping and killing device is characterized in that a pest-trapping lamp (3) is arranged in the pest-trapping and killing chamber, the top of the pest-trapping lamp (3) is fixedly connected with the inner top of the pest-killing lamp housing (1) through a lamp body fixing column (14), a hood-shaped pest-killing power grid (4) is arranged on the periphery of the pest-trapping lamp (3), the bottom of the hood-shaped pest-killing power grid (4) is closed, a downward-pressing reset mechanism (5) connected with the hood-shaped pest-killing power grid (4) is arranged on the inner top of the pest-trapping lamp housing (1), a jacking impact mechanism (6) is arranged on the bottom side of the pest-trapping chamber, and the jacking impact mechanism (6) acts on the bottom of the hood-shaped pest-killing power grid (4); the bottom of the insecticidal lamp housing (1) is provided with a detachable collecting box (13) in a threaded connection mode, a plurality of groups of ultraviolet germicidal lamps (12) are arranged in the insect-falling collecting chamber, and a collision insecticidal mechanism (7) is arranged between the insect-trapping insecticidal chamber and the insect-falling collecting chamber;

the outside of the insecticidal lamp housing (1) is provided with a control panel, and the control panel comprises a processor, a data storage module, a Wen Kuang monitoring and analyzing module and an operation regulation and control module; wen Kuang monitoring and analyzing module is used for carrying out temperature condition analysis on the corresponding insect killing lamp and generating a trap lamp regulation signal, a wind speed regulation signal, a bidirectional regulation signal or no signal, and sending the trap lamp regulation signal, the wind speed regulation signal or the bidirectional regulation signal to an operation regulation module through a processor, wherein the operation regulation module reduces the power of the trap lamp (3) when receiving the trap lamp regulation signal, improves the wind outlet speed when receiving the wind speed regulation signal, reduces the power of the trap lamp (3) when receiving the bidirectional regulation signal, and improves the wind outlet speed.

2. The artificial intelligence technology based inhalation insecticidal lamp of claim 1, wherein the Wen Kuang monitoring analysis module specifically operates by:

acquiring the surface temperature of the trap lamp (3) in the detection period and marking the surface temperature as lamp temperature data, calling a preset lamp temperature threshold value through a data storage module, performing numerical comparison on the lamp temperature data and the preset lamp temperature threshold value, and if the lamp temperature data is smaller than the preset lamp temperature threshold value, not generating a regulation signal; if the lamp temperature data is greater than or equal to a preset lamp temperature threshold value, acquiring the temperature of the environment corresponding to the insecticidal lamp and marking the temperature as ring temperature data, and performing difference calculation on the lamp temperature data and the ring temperature data to acquire a temperature difference coefficient; the method comprises the steps of calling a preset temperature difference threshold value through a data storage module, comparing a temperature difference coefficient with the preset temperature difference threshold value in a numerical mode, and generating a trap lamp regulation signal if the temperature difference coefficient is smaller than the preset temperature difference threshold value;

if the temperature difference coefficient is larger than or equal to a preset temperature difference threshold value, acquiring air outlet speed data of a corresponding insect killing lamp, calling a preset air outlet speed threshold value through a data storage module, carrying out numerical comparison on the air outlet speed data and the preset air outlet speed threshold value, if the air outlet speed data is larger than or equal to the preset air outlet speed threshold value, generating an insect trapping lamp regulation signal, if the air outlet speed data is smaller than the preset air outlet speed threshold value, carrying out differential value calculation on lamp temperature data and the preset lamp temperature threshold value to acquire a Wen Yu coefficient, calling a preset temperature threshold coefficient threshold value through a data storage module, and carrying out numerical comparison on a Wen Yu coefficient and the preset temperature threshold coefficient threshold value; if the Wen Yu coefficient is greater than or equal to a preset temperature threshold coefficient threshold value, generating a bidirectional regulation signal; and if the Wen Yu coefficient is smaller than the preset temperature threshold coefficient threshold value, generating a wind speed regulating signal.

3. The suction type insecticidal lamp based on artificial intelligence technology according to claim 1, wherein the clamping and fixing mechanism (8) comprises a strip-shaped fixing block (81) fixedly connected with the vertical mounting column (10), one side of the strip-shaped fixing block (81) far away from the vertical mounting column (10) is fixedly connected with one side of an adjusting seat (88) through a bolt, a bidirectional screw (86) is arranged in the adjusting seat (88) through bearing rotation, one end of the bidirectional screw (86) penetrates out of the adjusting seat (88) and is fixedly connected with a rocking handle (87), two ends of the bidirectional screw (86) are in threaded connection with a movable limiting block (85), a guide opening is formed in one side of the adjusting seat (88) back to the strip-shaped fixing block (81), one side of the movable limiting block (85) is fixedly provided with a connecting rod (84), one end of the connecting rod (84) far away from the corresponding movable limiting block (85) is fixedly connected with the clamping arc-shaped block (82), and an anti-skid layer (83) is fixedly arranged on an intrados surface of the clamping arc-shaped block (82).

4. The suction type insecticidal lamp based on artificial intelligence technology according to claim 1, wherein the pressing reset mechanism (5) is matched with the jacking impact mechanism (6) so as to enable the cover-shaped insecticidal power grid (4) to vibrate up and down in a reciprocating manner, the jacking impact mechanism (6) comprises a vertical fixing seat (61) fixedly arranged at the middle position of the bottom of the insect-attracting insecticidal chamber, a central driving shaft (64) is rotatably arranged in the vertical fixing seat (61) through a bearing, two sides of the vertical fixing seat (61) are rotatably provided with horizontal rotating shafts (62) through the bearing, the top ends of the central driving shafts (64) are connected with two groups of horizontal rotating shafts (62) in a meshed manner through a first cone gear set (65), one end of the horizontal rotating shafts (62) far away from the vertical fixing seat (61) is fixedly provided with an eccentric wheel (63), and the outer circumferential surface of the eccentric wheel (63) is contacted with the bottom of the cover-shaped insecticidal power grid (4).

5. The suction type insecticidal lamp based on artificial intelligence technology according to claim 4, wherein the pressing reset mechanism (5) comprises an annular housing (51) fixedly arranged at the inner top of the insecticidal lamp housing (1), an upper annular plate (54) is fixedly arranged in the annular housing (51), a lower annular plate (52) is slidably arranged in the annular housing (51) through a sliding rail, the lower annular plate (52) is arranged below the upper annular plate (54), and a pressing spring (53) is fixedly arranged between the upper annular plate (54) and the lower annular plate (52).

6. The intelligent suction type insecticidal lamp according to claim 4, wherein the outer peripheral surface of the vertical fixing seat (61) is provided with a rotating ring (68) in a rotating manner, the bottom of the rotating ring (68) is provided with a plurality of groups of fixing rods (613), the bottom of the fixing rods (613) is fixedly connected with one end of the horizontal rod (66), the bottom of the horizontal rod (66) is provided with a strip-shaped brushing rod (67), the inner peripheral surface of the rotating ring (68) is provided with a first annular gear (612), the vertical fixing seat (61) is internally provided with a vertical rod (610) in a rotating manner through a bearing, the outer peripheral surface of the vertical rod (610) is fixedly provided with a second gear (611), the second gear (611) is in meshed connection with the first annular gear (612), the outer peripheral surface of the central driving shaft (64) is fixedly provided with a first gear (69), and the first gear (69) is in meshed connection with the second gear (611) on the vertical rod (610).

7. The suction type insecticidal lamp based on artificial intelligence technology according to claim 1, wherein the impact insecticidal mechanism (7) comprises a mounting plate (71) fixedly arranged between an insect attracting and killing chamber and an insect collecting chamber, a plurality of groups of funnel openings (72) are formed in the mounting plate (71), a central seat (76) is fixedly arranged at the center of the bottom of the mounting plate (71), a plurality of groups of lateral connecting seats (75) are fixedly arranged on the outer peripheral surface of the central seat (76), a rotating shaft (74) is arranged at the top of the lateral connecting seats (75) through bearing rotation, the top end of the rotating shaft (74) extends upwards into the funnel openings (72), a plurality of groups of fixed rings (710) are fixedly arranged on the outer peripheral surface of the rotating shaft (74), a plurality of groups of beating rods (711) are fixedly arranged on the outer peripheral surface of the fixed rings (712), and sharp teeth (711) are uniformly arranged on the outer peripheral surface of the beating rods (711).

8. The suction type insecticidal lamp based on artificial intelligence technology according to claim 7, wherein the bottom of the center base (76) is fixedly provided with a driving motor (73) through a motor base, the output end of the driving motor (73) is connected with the center driving shaft (64), a plurality of groups of middle rotating rods (77) extending into the side connecting base (75) are rotatably arranged on the side connecting base (75) through bearings, the center driving shaft (64) is in meshed connection with each group of middle rotating rods (77) through a second bevel gear set (78), and the middle rotating rods (77) are in meshed connection with corresponding rotating shafts (74) through a third bevel gear set (79).

9. The suction type insecticidal lamp based on the artificial intelligence technology according to claim 1, wherein the automatic sealing mechanism (9) comprises a movable ring (92) which is rotatably arranged on the outer peripheral surface of the insecticidal lamp housing (1), a plurality of groups of strip-shaped sealing blocks (91) are arranged at the top of the movable ring (92), the strip-shaped sealing blocks (91) are in one-to-one correspondence with the strip-shaped insect inlets (2), a connecting ring (93) is fixedly arranged on the outer peripheral surface of the movable ring (92), a second annular gear (94) is fixedly arranged on the inner peripheral surface, close to the bottom side, of the connecting ring (93), an opening and closing motor (95) is fixedly arranged on the outer peripheral surface of the insecticidal lamp housing (1) through a motor seat, an output shaft (96) is arranged at the output end of the opening and closing motor (95), a third gear (97) is fixedly arranged at the top end of the output shaft (96), and the third gear (97) is in meshed connection with the second annular gear (94).

10. An artificial intelligence technology based inhalation insecticidal lamp and method of operation thereof as claimed in any one of claims 1 to 9 comprising the steps of:

step one, an automatic sealing mechanism (9) enables a strip-shaped insect inlet (2) to be in an open state, and a fan, a trap lamp (3) and a hood-shaped insecticidal power grid (4) are started;

step two, the insect trap lamp (3) emits light to induce flying insects to enter the insect trap lamp housing (1), the fan enables the insect trap lamp housing (1) to be in a negative pressure state in the insect trap lamp housing so as to suck the flying insects at the periphery of the insect trap lamp housing (1) into the insect trap lamp housing (1), the flying insects entering the insect trap lamp housing (1) touch the hood-shaped insect killing power grid (4), and the hood-shaped insect killing power grid (4) kills the flying insects through electric shock effect; in the electric shock insecticidal process, the cover-shaped insecticidal power grid (4) is vibrated up and down in a reciprocating manner through the mutual cooperation of the pressing reset mechanism (5) and the jacking impact mechanism (6), and flying insect corpses attached to the outer peripheral surface of the cover-shaped insecticidal power grid (4) are shaken off to ensure the continuous electric shock insecticidal effect;

thirdly, the flying insects after electric shock fall into the falling insect collecting chamber, and in the falling process, the second-time impact killing of the flying insects is carried out through the impact killing mechanism (7), so that the insect killing effect is ensured;

and fourthly, starting an ultraviolet sterilizing lamp (12), emitting ultraviolet rays by the ultraviolet sterilizing lamp (12), sterilizing the flying insect corpses through irradiation of the ultraviolet rays, killing eggs in the flying insect corpses, improving the usability, and finally falling into a detachable collecting box (13), wherein the detachable collecting box (13) is used for collecting the flying insect corpses.