CN115316365B - LED deinsectization lamp light source with multi-wave-peak spectrum - Google Patents

Abstract

The invention belongs to the technical field of semiconductor LED light sources and lamps, and particularly relates to an LED insect-killing lamp light source with a multi-wave-peak spectrum, which comprises a base assembly, a mounting assembly and a protection assembly; the mounting assembly comprises an assembly frame body, four groups of light source mechanisms and a self-cleaning mechanism; the assembly framework is the open structure of rectangle form, the second mounting groove of mutual intercommunication is all seted up with the bottom in the top of assembly framework, sound decibel when detecting near mosquito flight of deinsectization lamp light source through four groups light source mechanism sends the wavelength of different spectrums for the effect of attraction mosquito, through automatically cleaning mechanism, when can carrying out rapid cooling to four groups light source mechanisms, can transmit protection component's inner wall top with remaining air current again, make the air current that gets into in the protection component outwards leak, be used for the clear purpose of protection component outer wall, make the illuminating effect of deinsectization lamp light source obtain promoting.

Description

LED deinsectization lamp light source with multi-wave-peak spectrum

Technical Field

The invention belongs to the technical field of semiconductor LED light sources and lamps, and particularly relates to an LED insect-killing lamp light source with a multi-wave-peak spectrum.

Background

At present, new varieties of lamps for trapping pests, namely, a double-wave lamp, a frequency vibration lamp, a Barker star lamp and the like, appear in the industry, the new varieties of trap lamps adopt traditional light sources, and the main light source is a low-pressure fluorescent mercury lamp with electrodes similar to a black light lamp. When used for trapping pests, the conventional light source lamp has several major problems. The spectrum range is narrow, the wave peak is single, the spectrum wave peaks of the visual sensitive places of pests are different, for example, the wave peaks 510 to 530nm sensitive to some pests fall outside the spectrum range of a light source of a black light lamp, and for example, the corresponding wave peaks do not exist although the sensitive wavelengths 510 to 530nm are within the spectrum range marked by the light source of a frequency vibration lamp. Secondly, the radiation efficiency, i.e. the radiation energy generated by unit electric power, is low.

Through retrieval, in the prior art, the Chinese patent application number: CN201110206312.4, application date: 2011-07-22 discloses an LED insect-killing lamp light source with multi-peak spectrum, belonging to the field of semiconductor LED light sources and application thereof. The LED lamp comprises a lamp cap, a transparent lamp tube and a metal heat dissipation column in the transparent lamp tube, wherein an LED metal-based printed circuit board with a mounted luminescent device is mounted on the metal heat dissipation column, the metal heat dissipation column is a regular polygonal hollow cylindrical surface body, and the cross section of the metal heat dissipation column is preferably a regular hexagon; the spectrum range of a light source reaches 320 to 650nm, the number of spectral peaks reaches 6, and the LED comprises LEDs with different luminescent colors, namely ultraviolet light, blue light, green light, yellow-green light, yellow light and orange-red light with different dominant wavelengths. The radiation efficiency is improved to 20 percent from 12 percent of the black light lamp, the energy consumption is saved, and the energy conservation, the environmental protection and the low cost are facilitated. The service life of the light source is prolonged to 10000 hours, the beam angle is increased from 120 degrees of the LED light-emitting device to 360 degrees of the LED light source, and full-spectrum trapping of pests of different types and different growth stages is effectively realized.

However, the device still has the following defects:

1. in the use process of the device, although full-spectrum trapping of pests of different types and different growth stages can be effectively realized, the metal-based printed circuit board MC-PCB is provided with a plurality of groups of LEDs with different color types, so that the metal-based printed circuit board MC-PCB is poor in heat-conducting property.

2. The transparent lamp tube is easily interfered by mosquitoes when in use, and the lighting effect of the light source is influenced.

Disclosure of Invention

Aiming at the problems, the invention provides an LED insect killing lamp light source with multi-wave-peak spectrum, which comprises a base assembly, a mounting assembly and a protection assembly;

the mounting assembly comprises an assembly frame body, four groups of light source mechanisms and a self-cleaning mechanism;

the assembling frame body is of a rectangular open structure, the top end and the bottom end of the assembling frame body are both provided with second mounting grooves which are mutually communicated, the outer wall of the assembling frame body is provided with four groups of third mounting grooves which are mutually communicated with the second mounting grooves, the bottom end of the assembling frame body is fixedly connected to the top end of the base assembly, the four groups of light source mechanisms are sequentially and movably clamped on the inner wall of the third mounting grooves, the self-cleaning mechanism is movably clamped on the inner wall of the second mounting groove, and the self-cleaning mechanism and the four groups of light source mechanisms are in attraction connection with the same side wall;

the self-cleaning mechanism comprises a guide cylinder; one end of the guide cylinder is fixedly connected with a power part, the other end of the guide cylinder is fixedly connected with a guide shell, the surface of the guide cylinder is provided with a plurality of groups of guide grooves, and the guide grooves are all positioned on one side of the four groups of light source mechanisms;

the bottom end of the protection component is movably clamped at the top end of the base component, and the protection component is sleeved on the periphery of the assembling frame body.

Further, the base assembly includes a socket housing;

the lamp holder comprises a lamp holder shell and is characterized in that a base cover plate is fixedly connected to the top end of the lamp holder shell, a mounting hole and a first mounting groove are formed in the top end of the base cover plate respectively, the central axes of the mounting hole and the first mounting groove coincide with the central axis of the base cover plate, the first mounting groove is in a circular ring shape and is sleeved on the periphery of the mounting hole.

Further, the inner wall bottom fixedly connected with motor of lamp stand casing, just the output transmission of motor is connected with an internal thread section of thick bamboo, an internal thread section of thick bamboo coincides with the axis of mounting hole, the bottom fixedly connected with screwed end of lamp stand casing.

Further, the light source mechanism includes a circuit board;

the outer wall of circuit board and keep away from one side embedding of second mounting groove and install a plurality of noise sensor of group, a plurality of groups noise sensor is the equidistance and distributes at the outer wall of circuit board, the outer wall of circuit board and keep away from one side embedding of noise sensor and install the magnetism backplate.

Furthermore, a plurality of groups magnetism backplate and a plurality of groups noise sensor is same level setting, infrared light LED and ultraviolet ray LED are installed in the outer wall of circuit board and the embedding of one side that is close to noise sensor, infrared light LED and ultraviolet ray LED distribute in every group noise sensor's both sides.

Further, the one end at the second mounting groove is installed in the embedding of power portion, the other end at the second mounting groove is installed in the embedding of water conservancy diversion casing, a plurality of groups of limiting plate of outer wall fixedly connected with of draft tube, a plurality of groups the quantity and a plurality of groups of limiting plate the quantity of magnetism backplate is the same, and a plurality of groups the limiting plate in proper order with a plurality of groups the magnetism backplate adsorbs the connection, a plurality of groups guiding gutter has been seted up on the surface of draft tube, and a plurality of groups the guiding gutter all is located one side of four group's circuit boards.

Further, the power section includes a fan housing;

the venthole has been seted up to fan housing's a lateral wall, just the one end fixed connection of venthole and draft tube, fan housing's inner wall and one side fixedly connected with a plurality of semiconductor refrigeration pieces of group, a plurality of groups that are close to the venthole semiconductor refrigeration piece is the array setting, and a plurality of groups be equipped with the clearance between the semiconductor refrigeration piece is adjacent.

Furthermore, the inner wall of the fan shell is fixedly connected with a second fan on one side far away from the air outlet, the outer wall of the fan shell is fixedly connected with a screw rod on one side far away from the air outlet, and the screw rod penetrates through the mounting hole and is in threaded connection with the internal thread cylinder.

Further, the protection component comprises a transparent lamp tube;

the lamp shade is connected to the other end of the transparent lamp tube in a sleeved mode, one side, far away from the transparent lamp tube, of the lamp shade is arc-shaped, an overflow plate is fixedly connected to the inner wall of the lamp shade, the overflow plate is of a circular ring-shaped structure, and the overflow plate is fixedly connected to the outer wall of the transparent lamp tube.

Furthermore, a plurality of groups of overflow cavities are formed in the surface of the overflow plate, the overflow cavities are of an arc-shaped structure, the overflow cavities are arranged in an annular array mode by taking the central axis of the overflow plate as the center, and the overflow cavities are located on one side close to the transparent lamp tube.

The invention has the beneficial effects that:

1. sound decibel when detecting near the fly of mosquito of deinsectization lamp light source through four light source mechanisms of group sends the wavelength of different spectra for the effect of attraction mosquito, through automatically cleaning mechanism, when can carrying out rapid cooling to four light source mechanisms of group, can transmit the inner wall top of protection component with remaining air current again, make the air current that gets into in the protection component outwards leak, be used for the clear purpose of protection component outer wall, make the illuminating effect of deinsectization lamp light source obtain promoting.

2. Through the continuous work of a plurality of groups semiconductor refrigeration piece, the cooperation second fan will flow gaseous temperature reduction to pour into the draft tube into, utilize a plurality of guiding gutters of group to insufflate the low temperature air current in the surface of four groups circuit board, be used for four groups circuit board in the high temperature environment refrigerated effect of falling temperature, improved the life of deinsectization lamp light source.

3. Through the continuous work of the first fan in the guide shell, residual gas in the guide shell is sucked into the guide shell, airflow generated by the first fan in the guide shell is stored by the lampshade, the direction of the airflow is changed through the arc-shaped structure of the lampshade, the airflow is blown to the surface of the overflow plate and is leaked outwards through a plurality of groups of overflow cavities, the purpose of cleaning the periphery of the outer wall of the transparent lamp tube by the leaked airflow is achieved, and the outer wall of the transparent lamp tube is kept in a good light transmission state all the time.

4. Drive the rotation of an internal thread section of thick bamboo through the motor, make the screw rod alternate segregation in the internal thread section of thick bamboo of spiro union to upwards promote the screw rod, make the water conservancy diversion casing by the inner wall separation of second mounting groove, a plurality of groups limiting plate and a plurality of groups magnetism backplate alternate segregation for cancellation circuit board and third mounting groove cancel the fixed purpose of absorption, be used for the circuit board to dismantle fast when overhauing and the effect of assembly, improved the maintenance efficiency of deinsectization lamp light source.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a light source of an LED insect killing lamp according to an embodiment of the invention;

FIG. 2 shows a schematic structural diagram of a base assembly of an embodiment of the present invention;

FIG. 3 shows an exploded view of the structure of a mounting assembly of an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a light source mechanism according to an embodiment of the present invention;

FIG. 5 shows a schematic structural diagram of a self-cleaning mechanism of an embodiment of the present invention;

FIG. 6 is a schematic view showing the structure of a power unit according to the embodiment of the present invention;

FIG. 7 shows a schematic structural view of a shield assembly in accordance with an embodiment of the present invention;

fig. 8 shows a schematic structural view of an overflow plate according to an embodiment of the invention.

In the figure: 1. a base assembly; 11. a lamp socket housing; 12. a base cover plate; 13. mounting holes; 14. a first mounting groove; 15. a motor; 16. an internal threaded barrel; 17. a threaded end; 2. mounting the component; 21. assembling the frame body; 22. a second mounting groove; 23. a third mounting groove; 24. a light source mechanism; 241. a circuit board; 242. a noise sensor; 243. a magnetic back plate; 244. an infrared light LED; 245. an ultraviolet LED; 25. a self-cleaning mechanism; 251. a draft tube; 252. a power section; 2521. a fan housing; 2522. an air outlet; 2523. a semiconductor refrigerating sheet; 2524. a second fan; 2525. a screw; 253. a flow-guiding housing; 254. a limiting plate; 255. a diversion trench; 3. a guard assembly; 31. a transparent lamp tube; 32. a lamp shade; 33. an overflow plate; 34. an overflow chamber.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides an LED (light-emitting diode) disinfestation lamp light source with a multi-wave-peak spectrum, which comprises a base component 1, a mounting component 2 and a protection component 3; illustratively, as shown in FIG. 1.

The top of base subassembly 1 and the bottom fixed connection of installation component 2, the bottom activity joint of protection component 3 is on the top of base subassembly 1, just protection component 3 cup joints around installation component 2.

Specifically, base subassembly 1 is used for the activity joint in protective assembly 3's bottom, makes protective assembly 3 expose outside dismantling back installation component 2 to through the rotation of base subassembly 1 inner chamber and installation component 2 alternate segregation, make the inside circuit board of installation component 2 outwards separate and reach the purpose of convenient to detach maintenance.

Installation component 2 can carry out quick heat conduction to installation component 2 through inside automatically cleaning mechanism, can transmit the inner wall top of protective assembly 3 with the air current again to utilize the circular arc structure on 3 inner wall tops of protective assembly to make the air current flow downwards, be used for the clear purpose of 3 outer walls of protective assembly, make the illuminating effect of bugZapper light source obtain the effect that promotes.

The base assembly 1 comprises a socket housing 11; illustratively, as shown in fig. 2.

A base cover plate 12 is fixedly connected to the top end of the lamp holder shell 11, a mounting hole 13 and a first mounting groove 14 are respectively formed in the top end of the base cover plate 12, the central axes of the mounting hole 13 and the first mounting groove 14 are coincident with the central axis of the base cover plate 12, the first mounting groove 14 is arranged in a circular ring shape, and the first mounting groove 14 is sleeved around the mounting hole 13;

the inner wall bottom fixedly connected with motor 15 of lamp stand casing 11, just the output transmission of motor 15 is connected with an internal thread section of thick bamboo 16, an internal thread section of thick bamboo 16 coincides with the axis of mounting hole 13, the bottom fixedly connected with screw thread end 17 of lamp stand casing 11.

Specifically, the base cover plate 12 is used for fixedly connecting the effect of the mounting assembly 2, and the effect of the self-cleaning mechanism movable clamping of the inner cavity of the mounting assembly 2 is realized through the mounting hole 13, the motor 15 is utilized to drive the internal thread cylinder 16 to rotate for locking the effect of the self-cleaning mechanism, and the first mounting groove 14 is used for movably clamping the bottom end of the protection assembly 3 and achieving the purpose of protecting the mounting assembly 2 in an all-directional mode through the protection assembly 3.

The mounting assembly 2 comprises an assembly frame body 21, four groups of light source mechanisms 24 and a self-cleaning mechanism 25; illustratively, as shown in FIG. 3.

The assembly frame body 21 is an open structure with a rectangular shape, the top end and the bottom end of the assembly frame body 21 are both provided with second mounting grooves 22 which are communicated with each other, the outer wall of the assembly frame body 21 is provided with four sets of third mounting grooves 23, the third mounting grooves 23 are all communicated with the second mounting grooves 22, the bottom end of the assembly frame body 21 is fixedly connected to the top end of the base cover plate 12, the second mounting grooves 22 are communicated with the mounting holes 13, and the light source mechanisms 24 are sequentially movably clamped on the inner walls of the third mounting grooves 23, the self-cleaning mechanisms 25 are movably clamped on the inner walls of the second mounting grooves 22, the self-cleaning mechanisms 25 are connected with the four sets of the same side walls of the light source mechanisms 24 in a suction manner, and the bottom ends of the self-cleaning mechanisms 25 are fixedly connected with the threads of the internal thread barrels 16.

Specifically, the four groups of light source mechanisms 24 are attached to and connected around the outer wall of the assembly frame 21, and are embedded in and installed at the center of the inner wall of the assembly frame 21 through the self-cleaning mechanism 25, and the self-cleaning mechanism 25 and the four groups of light source mechanisms 24 are in suction connection, so that when the motor 15 drives the internal thread barrel 16 to rotate, the self-cleaning mechanism 25 screwed on the internal thread barrel 16 is lifted and lowered, and the self-cleaning mechanism 25 and the four groups of light source mechanisms 24 are switched to be in suction connection or separated;

the self-cleaning mechanism 25 is used for blowing the discharged refrigerating air flow to one side wall of the four groups of the light source mechanisms 24 for the purpose that the four groups of the light source mechanisms 24 operate in an environment of continuous high-temperature work in summer, and blowing the air flow at one end in the protection assembly 3 through the self-cleaning mechanism 25, so that the air flow is leaked outwards from the gap of the protection assembly 3 by utilizing the arc-shaped structure of the inner wall of the protection assembly 3, and the self-cleaning mechanism is used for cleaning the surface of the protection assembly 3.

The light source mechanism 24 includes a circuit board 241; illustratively, as shown in fig. 4.

The outer wall of circuit board 241 and the one side embedded installation of keeping away from second mounting groove 22 have a plurality of groups noise sensor 242, a plurality of groups noise sensor 242 is the equidistance and distributes at circuit board 241's outer wall, circuit board 241's outer wall and the one side embedded installation of keeping away from noise sensor 242 have magnetism backplate 243, a plurality of groups magnetism backplate 243 and a plurality of groups noise sensor 242 is same level setting, circuit board 241's outer wall and the one side embedded installation that is close to noise sensor 242 have infrared light LED244 and ultraviolet light LED245, infrared light LED244 and ultraviolet light LED245 distribute at every group noise sensor 242's both sides.

Further, a controller chip is embedded in the circuit board 241, and the circuit board 241 is electrically connected to the noise sensor 242, the infrared LED244, and the ultraviolet LED 245.

Specifically, the noise sensor 242 is configured to detect a sound decibel of flying mosquitoes near the light source of the pest control lamp, transmit the sound decibel to the controller chip on the circuit board 241 through detection of the noise sensor 242, respectively turn on the infrared light LED244 or the ultraviolet light LED245 after analysis by the controller chip, and emit different spectral wavelengths by using the infrared light LED244 and the ultraviolet light LED245, so as to attract the mosquitoes.

The self-cleaning mechanism 25 includes a guide cylinder 251; illustratively, as shown in fig. 5.

One end fixed connection of draft tube 251 has power portion 252, just the one end at second mounting groove 22 is installed in the embedding of power portion 252, the other end fixedly connected with draft tube 251 draft shell 253, just the other end at second mounting groove 22 is installed in the embedding of draft shell 253, the outer wall fixedly connected with of draft tube 251 a plurality of groups limiting plate 254, a plurality of groups the quantity and the plurality of groups of limiting plate 254 the quantity of magnetism backplate 243 is the same, and a plurality of groups limiting plate 254 in proper order with a plurality of groups magnetism backplate 243 adsorbs the connection, a plurality of groups guiding gutter 255 has been seted up on the surface of draft tube 251, and a plurality of groups guiding gutter 255 all is located one side of four groups of circuit boards 241.

Further, the guide shell 253 is communicated with the guide cylinder 251, and a first fan is embedded and installed on one side of the guide shell 253, which is far away from the guide cylinder 251.

The power section 252 includes a fan housing 2521; illustratively, as shown in fig. 6.

Venthole 2522 has been seted up to fan housing 2521's a lateral wall, just the one end fixed connection of venthole 2522 and draft tube 251, fan housing 2521's inner wall and the one side fixedly connected with semiconductor refrigeration piece 2523 of a plurality of groups that are close to venthole 2522, a plurality of groups semiconductor refrigeration piece 2523 is the array setting, and a plurality of groups be equipped with the clearance between semiconductor refrigeration piece 2523 is adjacent, fan housing 2521's inner wall and one side fixedly connected with second fan 2524 of keeping away from venthole 2522, fan housing 2521's outer wall and a lateral wall fixedly connected with screw 2525 of keeping away from venthole 2522, screw 2525 runs through mounting hole 13 and threaded connection in interior threaded tube 16.

Specifically, the plurality of groups of semiconductor cooling plates 2523 work continuously, cooperate with the second fan 2524 to reduce the temperature of the flowing gas, and inject the flowing gas into the guide cylinder 251, and utilize the plurality of groups of guide grooves 255 to blow low-temperature gas flow onto the surfaces of the four groups of circuit boards 241, so as to perform the cooling function of the four groups of circuit boards 241 in a high-temperature environment;

the continuous operation of the first fan in the guide casing 253 sucks the residual gas in the guide cylinder 251 into the guide casing 253, and injects the gas into the shielding assembly 3 through the first fan for cleaning the outer wall of the shielding assembly 3.

The protective component 3 comprises a transparent lamp tube 31; illustratively, as shown in fig. 7 and 8.

Transparent tube 31's one end activity joint is at the inner wall of first mounting groove 14 and uses mutually supporting, transparent tube 31's the other end has cup jointed lamp shade 32, just one side that transparent tube 31 was kept away from to lamp shade 32 is convex setting, the inner wall fixedly connected with overflow plate 33 of lamp shade 32, overflow plate 33 is the round annular structure, just overflow plate 33 fixed connection is at transparent tube 31's outer wall, a plurality of groups overflow chamber 34, and a plurality of groups have been seted up on overflow plate 33's surface overflow chamber 34 is convex structure, a plurality of groups overflow chamber 34 uses the axis of overflow plate 33 to be annular array setting, and a plurality of groups overflow chamber 34 is located the one side that is close to transparent tube 31.

Specifically, the transparent lamp 31 is sleeved at a port of the diversion housing 253, the airflow generated by the first fan inside the diversion housing 253 is received by the lampshade 32, and the direction of the airflow is changed by the arc-shaped structure of the lampshade 32, so that the airflow is blown to the surface of the overflow plate 33 and is leaked outside through the plurality of groups of overflow cavities 34, the leaked airflow is used for cleaning the periphery of the outer wall of the transparent lamp 31, and the outer wall of the transparent lamp 31 is kept in a good light transmission state all the time.

The LED insect-killing lamp light source with the multi-wave-peak spectrum provided by the embodiment of the invention has the following working principle:

the noise sensor 242 is used for detecting the sound decibel of flying mosquitoes near the light source of the insect killing lamp, the detection of the noise sensor 242 is transmitted to the controller chip on the circuit board 241, the infrared light LED244 or the ultraviolet light LED245 is respectively turned on after the analysis of the controller chip, and the infrared light LED244 and the ultraviolet light LED245 are used for emitting different spectral wavelengths to attract the mosquitoes;

through the continuous work of a plurality of groups of semiconductor refrigerating sheets 2523, the temperature of flowing gas is reduced by matching with a second fan 2524 and is injected into the guide cylinder 251, and low-temperature airflow is blown to the surfaces of the four groups of circuit boards 241 by utilizing a plurality of groups of guide grooves 255, so that the functions of reducing the temperature and cooling the four groups of circuit boards 241 in a high-temperature environment are achieved;

the residual air in the guide cylinder 251 is sucked into the guide shell 253 by the continuous operation of the first fan in the guide shell 253, the airflow generated by the first fan in the guide shell 253 is received by the lampshade 32, the direction of the airflow is changed by the arc-shaped structure of the lampshade 32, the airflow is blown to the surface of the overflow plate 33 and is leaked outwards through the groups of overflow cavities 34, the leaked airflow is used for cleaning the periphery of the outer wall of the transparent lamp tube 31, and the outer wall of the transparent lamp tube 31 is kept in a good light transmission state at all times;

drive the rotation of an internal thread section of thick bamboo 16 through motor 15, make the spiro union in an internal thread section of thick bamboo 16 screw 2525 alternate segregation to upwards promote screw 2525, make water conservancy diversion casing 253 by the inner wall separation of second mounting groove 22, a plurality of groups limiting plate 254 and a plurality of groups magnetism backplate 243 alternate segregation for cancel circuit board 241 and third mounting groove 23 and cancel the fixed purpose of absorption, be used for circuit board 241 quick detach and the effect of assembly when overhauing.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a LED bugZapper light source with many wave peak spectrums which characterized in that: comprises a base component (1), a mounting component (2) and a protection component (3);

the mounting assembly (2) comprises an assembling frame body (21), four groups of light source mechanisms (24) and a self-cleaning mechanism (25);

the assembling frame body (21) is a rectangular open structure, the top end and the bottom end of the assembling frame body (21) are respectively provided with a second mounting groove (22) which are communicated with each other, the outer wall of the assembling frame body (21) is provided with four groups of third mounting grooves (23), the four groups of third mounting grooves (23) are respectively communicated with the second mounting grooves (22), the bottom end of the assembling frame body (21) is fixedly connected to the top end of the base component (1), the four groups of light source mechanisms (24) are sequentially and movably clamped on the inner wall of the third mounting grooves (23), the self-cleaning mechanism (25) is movably clamped on the inner wall of the second mounting groove (22), and the self-cleaning mechanism (25) is connected with the same side wall of the four groups of light source mechanisms (24) in a suction manner;

the self-cleaning mechanism (25) comprises a guide cylinder (251); one end of the guide cylinder (251) is fixedly connected with a power part (252), the other end of the guide cylinder (251) is fixedly connected with a guide shell (253), a plurality of groups of guide grooves (255) are formed in the surface of the guide cylinder (251), and the plurality of groups of guide grooves (255) are located on one side of the four groups of light source mechanisms (24);

the power portion (252) comprises a fan shell (2521), an air outlet (2522) is formed in one side wall of the fan shell (2521), the air outlet (2522) is fixedly connected with one end of the guide cylinder (251), a plurality of groups of semiconductor refrigerating sheets (2523) are fixedly connected to one side, close to the air outlet (2522), of the inner wall of the fan shell (2521), the plurality of groups of semiconductor refrigerating sheets (2523) are arranged in an array mode, and gaps are formed between adjacent groups of semiconductor refrigerating sheets (2523);

the bottom end of the protection component (3) is movably clamped at the top end of the base component (1), and the protection component (3) is sleeved on the periphery of the assembling frame body (21);

the protection assembly (3) comprises a transparent lamp tube (31), one end of the transparent lamp tube (31) is movably clamped on the inner wall of the first mounting groove (14) and is matched with the inner wall of the first mounting groove for use, the other end of the transparent lamp tube (31) is sleeved with a lampshade (32), one side, away from the transparent lamp tube (31), of the lampshade (32) is arranged in an arc shape, the inner wall of the lampshade (32) is fixedly connected with an overflow plate (33), the overflow plate (33) is of a circular ring-shaped structure, and the overflow plate (33) is fixedly connected to the outer wall of the transparent lamp tube (31);

base subassembly (1) includes lamp stand casing (11), the top fixedly connected with base cover plate (12) of lamp stand casing (11), mounting hole (13) and first mounting groove (14) have been seted up respectively on the top of base cover plate (12), just the axis of mounting hole (13) and first mounting groove (14) all coincides with the axis of base cover plate (12), first mounting groove (14) are the ring form setting, just first mounting groove (14) cup joint around mounting hole (13), just the inner wall bottom fixedly connected with motor (15) of lamp stand casing (11), just the output transmission of motor (15) is connected with an internal thread section of thick bamboo (16), the coincidence of the axis of an internal thread section of thick bamboo (16) and mounting hole (13), the bottom fixedly connected with thread end (17) of lamp stand casing (11).

2. The LED disinfestation lamp light source with multiple peak spectra of claim 1, wherein: light source mechanism (24) include circuit board (241), the outer wall of circuit board (241) and keep away from one side embedding of second mounting groove (22) and install a plurality of noise sensor (242), a plurality of groups noise sensor (242) are the equidistance and distribute at the outer wall of circuit board (241), magnetic backboard (243) are installed in the outer wall of circuit board (241) and the one side embedding of keeping away from noise sensor (242).

3. The LED disinfestation lamp light source with multiple peak spectra of claim 2, wherein: a plurality of groups magnetism backplate (243) and a plurality of groups noise sensor (242) are same level setting, infrared light LED (244) and ultraviolet light LED (245) are installed to the outer wall of circuit board (241) and the embedding of one side that is close to noise sensor (242), infrared light LED (244) and ultraviolet light LED (245) distribute in every group the both sides of noise sensor (242).

4. The LED disinfestation lamp light source with multiple peak spectra of claim 3, wherein: one end at second mounting groove (22) is installed in power portion (252) embedding, the other end at second mounting groove (22) is installed in water conservancy diversion casing (253) embedding, the outer wall fixedly connected with a plurality of groups limiting plate (254) of draft tube (251), a plurality of groups the quantity and the plurality of groups of limiting plate (254) the quantity of magnetism backplate (243) is the same, and a plurality of groups limiting plate (254) in proper order with a plurality of groups magnetism backplate (243) adsorb and connect, a plurality of groups guiding gutter (255) all are located one side of four groups circuit board (241).

5. The LED disinfestation lamp light source with multiple peak spectra of claim 1, wherein: the inner wall of the fan housing (2521) and the side far away from the air outlet (2522) are fixedly connected with a second fan (2524), the outer wall of the fan housing (2521) and the side wall far away from the air outlet (2522) are fixedly connected with a screw rod (2525), and the screw rod (2525) penetrates through the mounting hole (13) and is in threaded connection with the internal thread cylinder (16).

6. The LED insect-killing lamp light source with multi-peak spectrum as claimed in claim 5, wherein: a plurality of groups of overflow cavities (34) are formed in the surface of the overflow plate (33), the overflow cavities (34) are of a circular arc structure, the overflow cavities (34) are arranged in an annular array mode by taking the central axis of the overflow plate (33) as the center, and the overflow cavities (34) are located on one side close to the transparent lamp tube (31).

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