Mosquito extermination lamp

The mosquito killer lamp addresses attraction and cleaning inefficiencies by using a base-mounted light unit and detachable collection box, enhancing trapping efficiency and usability with a dual-wavelength LED system and stable high-voltage grid connection.

DE202026101832U1Undetermined Publication Date: 2026-07-02YUAN SHANGYI

Patent Information

Authority / Receiving Office
DE · DE
Patent Type
Utility models
Current Assignee / Owner
YUAN SHANGYI
Filing Date
2026-03-31
Publication Date
2026-07-02

AI Technical Summary

Technical Problem

Existing mosquito killer lamps have limited attraction efficiency due to centralized light emission, complex and difficult-to-clean collection structures, and unstable connections, leading to hygiene issues and operational challenges.

Method used

A mosquito killer lamp with a base-mounted light unit for enhanced mosquito attraction and a detachable collection box that facilitates easy cleaning and secure attachment, featuring a dual-wavelength LED lighting system and a stable high-voltage grid connection.

Benefits of technology

The lamp increases trapping efficiency through improved light distribution and ease of cleaning, ensuring reliable operation and enhanced user safety with a stable collection system and clear directional indicators.

✦ Generated by Eureka AI based on patent content.

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Abstract

A mosquito-killing lamp (10), characterized in that it comprises: an installation housing (100) wherein a circuit board (1011) and a power supply (1012) are provided in the installation housing (100), wherein the circuit board (1011) and the power supply (1012) are electrically connected to each other; a first luminaire unit (110) wherein the first luminaire unit (110) is provided in a base (102) of the installation housing (100) and is electrically connected to the circuit board (1011); wherein the base (102) further comprises a first translucent section (1023), wherein light emitted by the first luminaire unit (110) is emitted outwards through the first translucent section (1023).
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Description

TECHNICAL AREA The present utility model relates to the technical field of lamps, in particular a mosquito extermination lamp. STATE OF THE ART A mosquito killer lamp is an electrical device that uses the light sensitivity of mosquitoes and other characteristics to attract and kill them. Existing mosquito killer lamps typically use a single light unit that emits light of a specific wavelength (e.g., UV light) to attract mosquitoes, and then either kills the mosquitoes with a high-voltage grid or sucks them into a collection box using a fan. However, mosquito control lamps known in the prior art still exhibit some shortcomings in their design and function. First, regarding the attraction method, the light source in conventional mosquito control lamps is often located in the center or at the top of the device, resulting in relatively one-sided light emission. This has a limited attraction effect on mosquitoes that are close to the ground or in low-lying areas, leading to suboptimal overall capture efficiency and coverage. Second, regarding mosquito collection, the collection structure for gathering mosquito remains is usually complexly integrated with the main body, making disassembly and cleaning difficult. Furthermore, mosquito remains can easily be scattered during cleaning, compromising usability and hygiene.Furthermore, some collection boxes lack reliable fixings and operating instructions for connecting to the main body, so that operating errors can easily occur during installation or disassembly, leading to an unstable connection or difficulties in disassembly. In light of the aforementioned problems, it is necessary to provide a mosquito killer lamp. This lamp features a light unit at its base, which not only provides additional illumination but also enhances its attraction to mosquitoes. Furthermore, the collection tray of this mosquito killer lamp is detachably attached to the base of the lamp to collect dead mosquitoes. It can be easily removed, facilitating regular cleaning and increasing the user-friendliness of the lamp. CONTENTS OF THE PRESENT USE SAMPLE To remedy the shortcomings of the prior art, the present utility model provides a mosquito-killing lamp. A collection box is detachably attached to the base of the mosquito-killing lamp. This box is used to collect the killed mosquitoes, thus preventing them from falling indiscriminately onto the floor or table surface after being killed. Since the collection box is detachably attached to the base, the mosquito carcasses can also be easily and regularly removed, which increases the ease of use of the mosquito-killing lamp. To solve the above technical problem, the present utility model uses the following technical solutions: The present utility model provides a mosquito-killing lamp comprising the following: an installation housing, wherein a printed circuit board and a power supply are provided in the installation housing, the printed circuit board and the power supply being electrically connected to each other; furthermore, a first lighting unit, wherein the first lighting unit is provided in a base of the installation housing and is electrically connected to the printed circuit board; wherein the base further comprises a first translucent section, wherein light emitted by the first lighting unit is radiated outwards through the first translucent section. As an improvement to this embodiment, the mosquito-killing lamp further comprises a collection box, wherein the installation housing comprises a base, the base having a central channel, the collection box being detachably connected to the base and being located in the central channel to collect mosquitoes falling from the central channel. The present utility model has the following advantageous effects: By arranging a first lighting unit in the base, a mosquito attraction zone can be created around the underside of the mosquito killer lamp to increase trapping efficiency; at the same time, it serves to illuminate the mosquito killer lamp. Furthermore, the collection box of the mosquito killer lamp can be easily removed from or reinstalled on the base, which facilitates regular cleaning or replacement and increases ease of use. BRIEF DESCRIPTION OF THE DRAWING To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings, which are to be used in the embodiments of this utility model, are briefly described below. The accompanying drawings described below are some of the embodiments of this utility model, and other accompanying drawings can be derived from the accompanying drawings by a person with normal technical knowledge without creative work. The present utility model is described in more detail below in conjunction with the accompanying drawings and embodiments. Fig. 1 shows a schematic representation of the overall structure of the present utility model; Fig. 2 shows a schematic representation of the sectional structure of the present utility model; Fig. 3 shows a schematic representation of the partially enlarged structure of A in Fig. 2; Fig. 4 shows a schematic representation of the structure of a collection box; Fig. 5 shows a schematic representation of the exploded view of a base and the collection box; Fig. 6 shows a schematic representation of the exploded view of the present utility model; Fig. 7 shows a schematic representation of the structure of an upper housing body. DETAILED DESCRIPTION The present utility model discloses a mosquito-killing lamp 10, as shown in Figs. 1, 2, 3, 4, 5, 6 to 7, comprising the following: an installation housing 100, wherein the installation housing 100 comprises an upper housing body 101 and a base 102, wherein a circuit board 1011 and a power supply 1012 are provided in the upper housing body 101, wherein the circuit board 1011 and the power supply 1012 are electrically connected to each other, and wherein the base 102 has a central channel 1021; a first lighting unit 110, wherein the first lighting unit 110 is provided on the base 102 and is electrically connected to the circuit board 1011; wherein the base 102 further comprises a first translucent section 1023, wherein light emitted by the first luminaire 110 is radiated outwards through the first translucent section 1023;a second light unit 300, wherein the second light unit 300 is electrically connected to the circuit board 1011 to emit a light source for attracting mosquitoes; a mosquito-killing device 400, wherein the mosquito-killing device 400 comprises a high-voltage grid 401, the high-voltage grid 401 being used to kill mosquitoes attracted by the second light unit 300; a collection box 200, wherein the collection box 200 is detachably connected to the base 102 and is located in the central channel 1021 to collect mosquitoes falling from the central channel 1021. In this embodiment, the base 102 comprises an annular housing 103, wherein the annular housing 103 comprises a first housing body 1031 and a second housing body 1032; wherein the first housing body 1031 and the second housing body 1032 are connected to each other to form a first installation space 1033, the first lighting unit 110 being provided in the first installation space 1033, the second housing body 1032 being provided with the first translucent section 1023. Preferably, the second housing body 1032 is a transparent second housing body 1032 to form the first translucent section 1023. In this embodiment, the first lighting unit 110 comprises a first light guide plate 1101 and a plurality of first LED light spheres 1102 which are electrically connected to the first light guide plate 1101; wherein a luminous surface of the first LED light spheres 1102 faces the second housing body 1032. In this embodiment, a first control button 105 is further provided on the upper housing body 101, wherein the first control button 105 is electrically connected to the circuit board 1011 in order to control the operation of the first lighting unit 110. The connection between the first housing body 1031 and the second housing body 1032 forms an enclosed first installation space 1033, providing the first lighting unit 110 within it with an independent physical protection space. This effectively protects the first lighting unit 110 from the ingress of dust, moisture, and insect remains from the outside, significantly reducing the risk of a short circuit in the circuit or a drop in the light output of the first LED light spheres 1102. This extends the product's service life. Since the light-emitting surface of the first LED light spheres 1102 faces the second housing body 1032, reflection and absorption losses of light inside the base 102 are reduced.This ensures efficient and uniform outward emission of light intensity, which not only increases the attraction to mosquitoes from a great distance, but also makes the ambient lighting of the base 102 brighter and clearer. In this embodiment, at least one first locking projection 1022 is provided on the base 102, and at least one connecting column 201 is provided on an inner side wall of the collection box 200, with a second locking projection 2011 being provided on the connecting column 201. The first locking projection 1022 and the second locking projection 2011 engage with each other to detachably connect the collection box 200 to the base 102. The collection box 200 can be easily removed, which facilitates regular cleaning or replacement, reduces maintenance costs, and extends the service life of the entire device. Furthermore, the engagement of the first locking projection 1022 with the second locking projection 2011 allows for quick installation or removal of the collection box 200 without additional tools, thus increasing ease of use. In this embodiment, a handle 202 is provided on an outer side wall of the collection box 200. By actuating the handle 202, the collection box 200 is rotated in a first direction to engage the first locking projection 1022 and the second locking projection 2011, whereby the collection box 200 is firmly locked to the base 102. By actuating the handle 202, the collection box 200 is rotated in a second direction to release the engagement of the first locking projection 1022 with the second locking projection 2011, whereby the collection box 200 is released from the base 102. The first and second directions are opposite to each other. The above structure allows the user to engage or disengage the collection box 200 from the base 102 by simply turning the handle 202, making operation easy and energy-saving. In this embodiment, a first finger recess 203 and a second finger recess 204 are further provided on the outer side wall of the collection box 200, located on both sides of the handle 202. The first finger recess 203 and the second finger recess 204 are used for inserting the fingers to hold the handle 202. This structure allows the user to apply more force when turning the handle 202, thus facilitating operation. In this embodiment, markings 205 are also provided on the outer side wall of the collection box 200, indicating the first and second directions. These markings 205 on the outer side wall of the collection box 200 clearly indicate the first and second directions, thereby preventing operating errors due to unclear directional information and increasing safety and reliability during use. In this embodiment, an inner wall surface of the annular housing 103 encloses the central channel 1021, wherein the base 102 further comprises a connecting grid 104, wherein the connecting grid 104 is provided in the central channel 1021 and is connected to the inner wall surface of the annular housing 103, wherein the first snap-in projections 1022 are provided in a circumferential direction on the inner wall surface of the outer grid of the connecting grid 104. The above structure allows the collection box 200 to be positioned and installed quickly and precisely on the base 102. Simultaneously, the connecting grid 104 increases the overall rigidity of the base 102, and its grid structure ensures that mosquitoes fall unhindered through the central channel 1021 into the collection box 200. Furthermore, when the collection box 200 is removed, the connecting grid 104 effectively prevents the user, especially children, from accidentally touching the mosquito killer 400 inside or any of the circuitry with their fingers, thus fulfilling an important safety function. In this embodiment, the second lighting unit 300 comprises a first lighting section 301 and a second lighting section 302, wherein both the first lighting section 301 and the second lighting section 302 comprise a translucent tube body 3011 and a second light guide plate 3012, which is provided on the translucent tube body 3011, wherein a plurality of second LED light spheres 3013, a plurality of third LED light spheres 3014 and a plurality of fourth LED light spheres 3015 are electrically connected to the second light guide plate 3012, wherein an emission wavelength of the second LED light spheres 3013 is in a range of 365 nm to 380 nm, wherein an emission wavelength of the third LED light spheres 3014 is in a range of 380 nm to 450 nm, and wherein an emission wavelength of the fourth LED light spheres 3015 is in a range of 400 nm to 780 nm.In another preferred embodiment, the emission wavelength of the fourth LED light spheres 3015 lies in a range of 450 nm to 700 nm. The different wavelength ranges of the LED light spheres mentioned above complement each other. On the one hand, there are short-wave UV components, to which mosquitoes are particularly sensitive, and on the other hand, long-wave components that enhance the contrast in visible light. This creates a broader spectrum for attracting mosquitoes, increasing the effective capture radius and boosting the attraction rate. Furthermore, the fourth LED light sphere, the 3015, covers the visible light range and emits a soft, visible light during operation, thus addressing both the requirements for ambient lighting and the mosquito attraction function, thereby improving the product's usability and the user experience. Furthermore, a second control button 106 is provided on the upper housing body 101 of the installation housing 100, wherein the second control button 106 is electrically connected to the circuit board 1011 to control the operation of the second lighting unit 300. In this embodiment, the second lighting unit 300 is connected between the upper housing body 101 and the base 102, wherein the high-voltage grid 401 is provided around an outer surface of the second lighting unit 300 and is connected between the upper housing body 101 and the base 102; In particular, both ends of the second luminaire unit 300 each have a first end section 303 and a second end section 304, wherein a first installation groove 1013 is provided on the upper housing body 101, wherein the first end section 303 is provided in the first installation groove 1013, wherein a second installation groove 1024 is provided on the base 102, wherein the second end section 304 is provided in the second installation groove 1024, wherein a fastening cover 1026 is further provided on the installation groove 1024, wherein the fastening cover 1026 fastens and installs the second end section 304 in the second installation groove 1024 in order to connect the second luminaire unit 300 between the upper housing body 101 and the base 102.The mounting cover 1206 has a limiting hole 1027, through which the second light unit 300 passes. The second end section 304 is larger than the limiting hole 1027, so that the second end section 304 is firmly seated in the second installation groove 1024. This structure allows the second light unit 300 to be firmly installed between the upper housing body 101 and the base 102, preventing wobbling or slippage during operation and improving the stability of the overall structure. In this embodiment, a plurality of first installation snap slots 1014 are further provided on the upper housing body 101, wherein a plurality of installation snap blocks 4011 are provided at one end of the high-voltage grid 401, wherein the installation snap blocks 4011 are provided in the first installation snap slots 1014, wherein a plurality of second installation snap slots 1025 are further provided on the connecting grid 104 of the base 102, wherein another end of the high-voltage grid 401 is snapped into the second installation snap slots 1025 in order to connect the high-voltage grid 401 between the upper housing body 101 and the base 102. Furthermore, to facilitate the positioning and installation of the high-voltage grid 401, a positioning snap ring 1015 and a number of limiting columns 1016 are provided on the upper housing body 101. The limiting columns are arranged around an outer edge of the positioning snap ring 1015, forming a positioning space 1017 between the positioning snap ring 1015 and the limiting columns 1016. This positioning space is used for positioning and installing the high-voltage grid 401. The first installation snap groove 1014 is located within the positioning space 1017 and adjoins an outer edge of the positioning snap ring 1015. One end of the high-voltage grid 401 is attached to the positioning snap ring 1015, and the installation snap block 4011 is engaged in the first installation snap groove. 1014 is planned.The two ends of the high-voltage grid 401 are each snapped into the first installation snap slot 1014 of the upper housing body 101 and into the second installation snap slot 1025 of the base 102 by means of the installation snap blocks, thus achieving multi-point fastening. This ensures a stable and reliable connection of the high-voltage grid 401, prevents easy loosening, and increases reliability during long-term use. Furthermore, the positioning snap ring 1015 on the upper housing body 101 and the limiting columns 1016 provided around the outer edge together form a positioning space 1017, which enables automatic alignment of the high-voltage grid 401 during installation, thereby preventing offset or misalignment and increasing assembly efficiency. In this embodiment, a lampshade 107 is provided between the upper housing body 101 and the base 102, wherein the lampshade 107 is a hollow lampshade 107. The hollow lampshade 107 forms an outer protective layer between the second lighting unit 300 and the high-voltage grid 401, effectively preventing accidental contact with the high-voltage grid 401 by the user, while simultaneously ensuring good ventilation and heat dissipation. Furthermore, the hollow lampshade 107 does not obstruct or attenuate the light, so that the light emitted by the second lighting unit 300 can shine completely outwards to attract mosquitoes, thus maintaining or enhancing the attraction effect. The embodiments described above represent only one or more possible implementations, taking into account the specific content; however, this does not mean that the actual implementation of the present utility model is limited to these explanations. All methods and structures that are similar to or identical with the present utility model, as well as all technical developments or replacements based on the concept of the present utility model, are to be considered as belonging to the scope of protection of the present utility model.

Claims

Mosquito extermination lamp (10), characterized in that it comprises: an installation housing (100) wherein a printed circuit board (1011) and a power supply (1012) are provided in the installation housing (100), wherein the printed circuit board (1011) and the power supply (1012) are electrically connected to each other; a first luminaire unit (110) wherein the first luminaire unit (110) is provided in a base (102) of the installation housing (100) and is electrically connected to the printed circuit board (1011); wherein the base (102) further comprises a first translucent section (1023), wherein light emitted by the first luminaire unit (110) is emitted outwards through the first translucent section (1023). Mosquito extermination lamp (10) according to claim 1, characterized in that the base (102) comprises an annular housing (103), wherein the annular housing (103) comprises a first housing body (1031) and a second housing body (1032); wherein the first housing body (1031) and the second housing body (1032) are connected to each other to form a first installation space (1033), wherein the first lighting unit (110) is provided in the first installation space (1033), wherein the second housing body (1032) is provided with the first light-transmitting section (1023). Mosquito extermination lamp (10) according to claim 2, characterized in that the first lighting unit (110) comprises a first light guide plate (1101) and a plurality of first LED light spheres (1102) which are electrically connected to the first light guide plate (1101); wherein a luminous surface of the first LED light spheres (1102) faces the second housing body (1032). Mosquito extermination lamp (10) according to claim 3, characterized in that the second housing body (1032) is a transparent second housing body (1032) to form the first translucent section (1023); wherein a first control button (105) is further provided on the installation housing (100), wherein the first control button (105) is electrically connected to the circuit board (1011) to control the operation of the first lighting unit (110). Mosquito extermination lamp (10) according to claim 1, characterized in that the mosquito extermination lamp (10) further comprises a collection box (200), wherein the base (102) has a central channel (1021), wherein the collection box (200) is detachably connected to the base (102) and is located in the central channel (1021) to collect mosquitoes falling from the central channel (1021). Mosquito extermination lamp (10) according to claim 5, characterized in that at least one first locking projection (1022) is provided on the base (102), wherein at least one connecting column (201) is provided on an inner side wall of the collection box (200), wherein a second locking projection (2011) is provided on the connecting column (201), wherein the first locking projection (1022) and the second locking projection (2011) lock into each other in order to detachably connect the collection box (200) to the base (102). Mosquito extermination lamp (10) according to claim 6, characterized in that a handle (202) is provided on an outer side wall of the collection box (200), wherein by actuating the handle (202) the collection box (200) is rotated in a first direction to engage the first locking projection (1022) and the second locking projection (2011) together, wherein the collection box (200) is firmly locked to the base (102), wherein by actuating the handle (202) the collection box (200) is rotated in a second direction to release the engagement of the first locking projection (1022) with the second locking projection (2011), wherein the collection box (200) is released from the base (102); wherein the first direction and the second direction are opposite to each other;wherein a first finger recess (203) and a second finger recess (204) are further provided on the outer side wall of the collection box (200), which are located on both sides of the handle (202), wherein the first finger recess (203) and the second finger recess (204) are used for inserting the fingers to hold the handle (202), wherein markings (205) are further provided on the outer side wall of the collection box (200) which indicate the first and the second direction. mosquito extermination lamp (10) according to claim 7, characterized in that the base (102) comprises an annular housing (103), wherein an inner wall surface of the annular housing (103) surrounds the central channel (1021), wherein the base (102) further comprises a connecting grid (104), wherein the connecting grid (104) is provided in the central channel (1021) and is connected to the inner wall surface of the annular housing (103), wherein the first snap-in projections (1022) are provided around the inner wall surface of the outer grid of the connecting grid (104). Mosquito-killing lamp (10) according to claim 1, characterized in that the mosquito-killing lamp further comprises a second light unit (300) and a mosquito-killing device (400), wherein a circuit board (1011) and a power supply (1012) are provided in an upper housing body (101) of the installation housing (100), wherein the circuit board (1011) is electrically connected to the power supply (1012), wherein both the second light unit (300) and the mosquito-killing device (400) are electrically connected to the circuit board (1011), wherein the second light unit (300) is used to emit a light source to attract mosquitoes, wherein the mosquito-killing device (400) comprises a high-voltage grid (401), wherein the high-voltage grid (401) is used to kill the mosquitoes attracted by the second light unit (300);wherein the second luminaire unit (300) comprises a first luminaire section (301) and a second luminaire section (302), wherein both the first luminaire section (301) and the second luminaire section (302) comprise a translucent tube body (3011) and a second light guide plate (3012) provided on the translucent tube body (3011), wherein a plurality of second LED light spheres (3013), a plurality of third LED light spheres (3014) and a plurality of fourth LED light spheres (3015) are electrically connected to the second light guide plate (3012), wherein an emission wavelength of the second LED light spheres (3013) is in the range of 365 nm to 380 nm, wherein an emission wavelength of the third LED light spheres (3014) is in the range of 380 nm to 400 nm, wherein an emission wavelength of the fourth LED light spheres (3015) lies in a range of 400 nm to 780 nm;wherein a second control button (106) is further provided on the installation housing (100), wherein the second control button (106) is electrically connected to the circuit board (1011) to control the operation of the second lighting unit (300). Mosquito extermination lamp (10) according to claim 9, characterized in that the installation housing (100) further comprises an upper housing body (101), wherein the second lighting unit (300) is connected between the upper housing body (101) and the base (102), wherein the high-voltage grid (401) is provided around an outer surface of the second lighting unit (300) and is connected between the upper housing body (101) and the base (102); wherein both ends of the second lighting unit (300) each have a first end section (303) and a second end section (304), wherein a first installation groove (1013) is provided on the upper housing body (101), wherein the first end section (303) is provided in the first installation groove (1013), wherein a second installation groove (1024) is provided on the connecting grid (104) of the base (102), wherein the installation groove (1024) furthermore a fastening cover (1206) is provided,wherein the fastening cover (1206) secures and installs the second end section (304) in the second installation groove (1024) to connect the second light unit (300) between the upper housing body (101) and the base (102); wherein a limiting hole (1027) is provided on the mounting cover (1206), wherein the second lighting unit (300) is passed through the limiting hole (1027), wherein the second end section (304) is larger than the limiting hole (1027) so that the second end section (304) is firmly provided in the second installation groove (1024); wherein a plurality of first installation snap grooves (1014) are further provided on the upper housing body (101), wherein a plurality of installation snap blocks (4011) are provided at one end of the high-voltage grid (401), wherein the installation snap blocks (4011) are provided in the first installation snap grooves (1014),wherein a plurality of second installation snap slots (1025) are further provided on the base (102), wherein another end of the high-voltage grid (401) is snapped into the second installation snap slots (1025) to connect the high-voltage grid (401) between the upper housing body (101) and the base (102); wherein a positioning snap ring (1015) and a number of limiting columns (1016) are further provided on the upper housing body (101), the limiting columns being provided around an outer edge of the positioning snap ring (1015), wherein a positioning space (1017) is formed between the positioning snap ring (1015) and the limiting columns (1016), which is used for positioning and installing the high-voltage grid (401), wherein the first installation snap slot (1014) is located within the positioning space (1017) is provided and adjoins an outer edge of the positioning snap ring (1015),wherein one end of the high-voltage grid (401) is attached to the positioning snap ring (1015), wherein the installation snap block (4011) is provided in the first installation snap groove (1014), wherein a lampshade (107) is further provided between the upper housing body (101) and the base (102), wherein the lampshade (107) is a hollowed-out lampshade (107).