WO2018054345A1 - 物理式灭蚊灯 - Google Patents

物理式灭蚊灯 Download PDF

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Publication number
WO2018054345A1
WO2018054345A1 PCT/CN2017/102837 CN2017102837W WO2018054345A1 WO 2018054345 A1 WO2018054345 A1 WO 2018054345A1 CN 2017102837 W CN2017102837 W CN 2017102837W WO 2018054345 A1 WO2018054345 A1 WO 2018054345A1
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Prior art keywords
electrode
waterproof
lamp
hole
gasket
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PCT/CN2017/102837
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English (en)
French (fr)
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黄方元
黄安武
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黄方元
黄安武
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Publication of WO2018054345A1 publication Critical patent/WO2018054345A1/zh

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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01MCATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
    • A01M1/00Stationary means for catching or killing insects
    • A01M1/02Stationary means for catching or killing insects with devices or substances, e.g. food, pheronones attracting the insects
    • A01M1/04Attracting insects by using illumination or colours
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01MCATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
    • A01M1/00Stationary means for catching or killing insects
    • A01M1/08Attracting and catching insects by using combined illumination or colours and suction effects

Definitions

  • the invention relates to the technical field of insect killing devices with new materials, in particular to a physical mosquito killing lamp.
  • Mosquito killers are anti-mosquito devices that do not require any chemical anti-mosquito substances.
  • An environmentally friendly, pollution-free, high-efficiency insect killing tool developed by the use of mosquito phototaxis for temperature-sensitive, hi-popping habits is also called a mosquito killer.
  • the mosquito killing lamp has the characteristics of simple structure, low price, beautiful appearance, small volume, and low power consumption.
  • the existing electronic mosquito killing lamps are usually powered by commercial power, so the mosquito killing lamps used outdoors usually require long wires, and the mosquito killing lamps cannot be widely used due to the limitation of the wires, especially in some industrial parks.
  • the mosquito killer In the inside, it is only possible to install a mosquito killer in a place where there is a wire, such as near an office building, and in other places, the mosquito lamp is cancelled due to inconvenient wiring.
  • the present invention provides a physical insect killer lamp which is structurally sound and can be widely installed.
  • a physical mosquito killer lamp comprising a casing, a light-emitting lamp and a solar device, wherein the light-emitting lamp is installed in a casing; the solar device comprises a solar panel and a battery; and the power output end of the solar panel is connected to the battery;
  • the housing includes a waterproof cover for preventing external water from contacting the light
  • the waterproof cover includes a top end and a bottom end, the outer diameter of the top end is smaller than the outer diameter of the bottom end; the waterproof cover is provided with a waterproof space, the waterproof space runs through the bottom end; the outer periphery of the waterproof cover The wall is inclined to facilitate the flow of water along the outer peripheral wall of the waterproof cover from the top end toward the bottom end; the power supply end of the light-emitting lamp is inserted in the waterproof space, and the top end of the waterproof cover is provided with a first through hole; The first through hole runs through the top end and communicates with the installation space; the first through hole facilitates connection of the light source to the power source;
  • a waterproof gasket is disposed in the first through hole, and the waterproof gasket is made of a silicone rubber gasket, a neoprene gasket or an EPDM gasket material; the waterproof gasket is provided with an opening, and no external force is applied.
  • the opening is closed due to the elasticity of the gasket material; when the hard stick is passed through the opening by an external force, the opening can be opened, and the waterproof gasket around the opening is tightly attached to the stick to Realizing the waterproof effect when the hard stick passes through the first through hole;
  • the battery includes a battery body and a first electrode fixed on the battery body.
  • the battery body is mounted on the housing for storing the amount of electricity generated by the solar panel.
  • the illuminating lamp includes an illuminator and is fixed to the illuminator. a second electrode; the second electrode includes two or more metal domes, and the metal domes are respectively spaced apart; when the first electrode is in contact with the second electrode, the portion of the first electrode is inserted into the metal dome And contacting at least two metal domes; the first electrode is connected to the power supply end of the light-emitting lamp through the first through hole of the waterproof cover, so that the battery body supplies power to the light-emitting lamp through the first electrode;
  • the solar device further includes an angle adjusting frame, the solar panel is mounted on the angle adjusting frame; the angle adjusting frame is mounted on the housing and includes at least one mounting surface; the angle adjusting frame includes a mounting frame , a mounting rod and a positioning member; the mounting frame includes a frame body and an adjusting tube fixed to the frame body, wherein the adjusting tube is hollow inside and open at both ends, the adjusting tube can be sleeved on the mounting rod and can rotate relative to the mounting rod; the adjusting tube is opened and adjusted a hole that communicates with an inner hollow portion of the adjustment tube; the number of the adjustment holes is two or more.
  • the first electrode is a metal pillar.
  • the physical mosquito killer lamp of the present invention generates electric energy through a solar device, and is stored by the battery, and then supplies power to the illuminating lamp, so that the illuminating lamp can be operated by placing the solar device in the vicinity of the illuminating lamp, so
  • the invented mosquito lamp can be installed in different places as needed.
  • by detachably connecting the first electrode and the second electrode only the first electrode and the second electrode need to be aligned during installation, and the part of the first electrode is inserted into the second electrode by external thrust. It is electrically connected without the need to install it with other external tools, so it is very convenient to install and disassemble.
  • FIG. 1 is a schematic structural view of a physical mosquito killer lamp according to an embodiment of the present invention.
  • Figure 2 is an exploded view of the physical mosquito killer shown in Figure 1;
  • FIG. 3 is an exploded perspective view of an angle adjusting frame according to an embodiment of the present invention.
  • the embodiment relates to a physical mosquito killer lamp, comprising a casing 1, a water supply container 2, a return water container 3, a water distribution component 4, and a light-emitting lamp 5.
  • the illuminating lamp 5 is mounted in the housing 1.
  • the return water container 3 is located under the illuminating lamp 5 and/or the water distribution assembly 4 square.
  • the water supply container 2 and the return water container 3 are electrically connected by a conduit (not shown).
  • the water distribution component 4 is used to distribute the water in the water supply container 2 to the outer circumference of the light-emitting lamp 5, so that when the insects fly toward the light-emitting lamp 5, they can be drowned by the water.
  • the housing 1 can be avoided if the physical mosquito killer is placed indoors.
  • the housing 1 includes a waterproof cover 11.
  • the waterproof cover 11 is for preventing external water from contacting the power receiving portion of the light-emitting lamp 5, resulting in leakage or the like.
  • the waterproof cover 11 includes a top end 111 and a bottom end 112.
  • the outer diameter of the top end 111 is smaller than the outer diameter of the bottom end.
  • the waterproof cover 11 is provided with a waterproof space 110 that penetrates the bottom end 112 .
  • the outer peripheral wall 113 of the waterproof cover 11 is disposed obliquely to facilitate the flow of water along the outer peripheral wall 113 of the waterproof cover 11 from the top end 111 toward the bottom end 112.
  • the power supply end of the illuminating lamp 5 is inserted into the waterproof space 110.
  • the top end 111 of the waterproof cover 11 is provided with a first through hole 111a.
  • the first through hole 111 a penetrates the top end 11 and communicates with the installation space 110 .
  • the first through hole 111a facilitates the connection of the light source 5 to the power source.
  • a waterproof gasket 111b is disposed in the first through hole 111a.
  • the waterproof gasket 111b can be made of a material such as a silicone rubber gasket, a neoprene gasket, or an EPDM rubber gasket.
  • the waterproof gasket 111b is provided with an opening 111c. When there is no external force, the opening 111c is closed due to the elasticity of the gasket material.
  • the opening 111c When the hard rod passing through the external force passes through the opening 111c, the opening 111c can be opened, and the waterproof gasket 111b around the opening 111c can be tightly attached to the stick, so that the hard material can pass through the first Through hole 111a and waterproof effect.
  • the embodiment of the present invention also provides another physical mosquito killing
  • the physical mosquito killer lamp may also include a solar device 9.
  • the solar device 9 can be used to power components such as illuminating lamps of physical mosquito killers.
  • the solar device 9 includes a solar panel 91 and a battery 92 for storing electrical energy generated by the solar cell.
  • the solar panel 91 is a solar panel 91 that can convert solar energy into electrical energy according to those skilled in the art.
  • the power output end of the solar panel 91 is connected to the battery 92.
  • the battery 92 is electrically coupled to the illuminating lamp 5, and the energy stored by the battery 92 can be used to provide energy for the illuminating of the illuminating lamp 5 and/or to provide energy for the operation of the water supplier 7.
  • the battery 92 can be charged by the solar panel 91 or can be charged by the commercial power.
  • the solar device 9 can be mounted to the housing 1. Of course, it can be installed by other supports such as pillars or tripods.
  • the solar panel 91 is attached to the top end of the waterproof cover 11.
  • the battery 92 includes a battery body 92a and a first electrode 92b.
  • the battery body 92 is for storing the generated electric quantity of the solar panel 91.
  • the first electrode 92b can be connected to the power supply end of the illuminating lamp 5 through the first through hole 111a of the waterproof cover 11, so that the battery body 92a can supply the illuminating lamp 5 through the first electrode 92b.
  • the first electrode 92b may be a metal pillar.
  • the power supply end of the illuminating lamp 5 includes a second electrode 51 that is connected to the illuminant of the illuminating lamp 5.
  • the second electrode 51 can be a metal dome.
  • the first electrode 92b is electrically connected to the light-emitting lamp 5 after being in contact with the second electrode 51.
  • the second electrode 51 may be composed of a combination of two or more metal domes. The metal domes are respectively spaced apart. When the first electrode 92b is in contact with the second electrode 51, the metal pillars can be inserted into the gap between the metal domes, so that the metal pillars can be clamped by the metal domes, that is, the metal pillars. It can be in contact with at least two metal domes.
  • the illuminating lamp 5 can be an ultraviolet lamp.
  • the positions of the first electrode 92b and the second electrode 51 may be interchanged.
  • the second electrode 51 may be a metal coating.
  • a connection hole that matches the first electrode 92b can be formed at the power supply end of the light-emitting lamp 5.
  • a metal coating is applied to the periphery of the hole wall and/or the connection hole of the connection hole to form the second electrode 51.
  • the metal coating layer may be in contact with the first electrode 92b to achieve electrical connection.
  • first electrode 92b and the second electrode 51 in the form of a metal dome or by attaching a metal coating on the connection hole, it is only necessary to align the first electrode 92b with the second electrode 51 through the outside.
  • the thrust can insert the first electrode 92b into the second electrode 51 to realize electrical connection without being installed by other external tools, so that it is very convenient to install and disassemble.
  • the solar device 9 can also include an angle adjustment bracket 93.
  • the solar panel 91 is mounted on the angle adjustment frame 93. In this way, the angle between the solar panel 91 and the sunlight can be adjusted, so that the solar panel 91 can better receive the sunlight and increase the efficiency of the solar device 9 to convert electrical energy.
  • the angle adjustment frame 93 includes at least one mounting surface 93a.
  • the angle adjustment bracket 93 may be a part of the waterproof cover 11 such that the mounting surface 93a on the adjustment bracket may be the top end 111 of the waterproof cover 11. In the present embodiment, the angle adjusting frame 93 will be described by taking the mounting surface 93a as two.
  • the angle adjusting frame 93 includes a mounting frame 931, a mounting rod 932, and a positioning member 933.
  • the mounting frame 931 includes a frame body 9311 and an adjustment fixed to the frame body 9311.
  • the adjusting tube 9312 is hollow inside and open at both ends.
  • the adjusting tube 9312 can be fitted on the mounting rod 932 and can be relatively rotated relative to the mounting rod 932.
  • An adjustment hole 9313 is defined in the adjustment tube 9312, and the adjustment hole 9313 is in communication with the inner hollow portion of the adjustment tube 9312.
  • the number of the adjustment holes 9313 is two or more.
  • the adjustment holes 9313 can be grouped according to actual needs, for example, 2-6 adjustment holes 9313 can be grouped.
  • the center of each set of adjustment holes 9313 is located on the circumference of the same circle.
  • the mounting body 931a is provided on the frame 9311 for mounting the solar panel 91 and the battery 92.
  • the working principle of the physical mosquito killer lamp of the present invention will be described below. After the components 1, the water supply container 2, the return water container 3, the water distribution component 4, and the light-emitting lamp 5 are combined, a physical mosquito killer lamp is formed. Powering the illuminating lamp 5 causes the illuminating lamp 5 to illuminate, and attracts the insect to and/or in the vicinity of the lamp wall of the illuminating lamp 5 by utilizing the phototaxis characteristic of the insect. Water is replenished in the water supply container 2, and after the pressure in the water supply container 2 reaches a predetermined value, the water can be sprayed or drained to the wall of the lamp 5 and/or its vicinity by the water distribution assembly 4, thereby realizing killing of the insect by water. dead. In addition, the insect-killing water can be recovered by the return water container 3, and the returned water can be introduced into the water supply container 2 for recycling.
  • the light source 5 can be powered by the solar device 9 for environmental protection.
  • the angle of the solar panel 91 can also be adjusted by the angle adjustment frame 93.

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  • Life Sciences & Earth Sciences (AREA)
  • Pest Control & Pesticides (AREA)
  • Engineering & Computer Science (AREA)
  • Insects & Arthropods (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Environmental Sciences (AREA)
  • Catching Or Destruction (AREA)

Abstract

一种物理式灭蚊灯,包括壳体(1)、发光灯(5)以及太阳能装置(9),发光灯(5)安装于壳体(1)内;太阳能装置(9)包括太阳能板(91)及蓄电池(92);太阳能板(91)的电量输出端与蓄电池(92)连接;蓄电池(92)包括电池本体(92a)及固定于电池本体(92a)上的第一电极(92b),电池本体(92a)安装于壳体(1)上,用于存储太阳能板(91)产生的电量;发光灯(5)包括发光体及与发光体固接的第二电极(51);电池本体(92a)通过第一电极(92b)为发光灯(5)供电。该灭蚊灯通过太阳能装置为发光灯供电,可以提高灭蚊灯的适用范围。

Description

物理式灭蚊灯 技术领域
本发明涉及具有新材料的昆虫杀灭设备技术领域,具体涉及一种物理式灭蚊灯。
背景技术
灭蚊灯是不需要采用任何化学灭蚊物质的灭蚊设备。利用蚊子趋光对温度敏感、喜群聚的习性研制出的一种环保无污染的高效昆虫捕杀工具,也叫灯灭蚊。灭蚊灯具有结构简单、售价低廉、美观大方、体积小、耗电省等特点。
现有的电子灭蚊灯通常采用市电进行供电,因此应用于室外的灭蚊灯通常需要很长的电线,并且也由于电线的限制导致灭蚊灯不能大范围使用,尤其在某些工业园区内,仅能在有布电线的地方安装灭蚊灯,例如办公楼附近,而其他地方由于布线不方便则取消安装灭蚊灯。
发明内容
为解决上述问题,本发明提供一种结构合理且能广泛安装的物理式灭蚊灯。
一种物理式灭蚊灯,包括壳体、发光灯以及太阳能装置,所述发光灯安装于壳体内;所述太阳能装置包括太阳能板及蓄电池;所述太阳能板的电量输出端与蓄电池连接;
所述壳体包括防水盖,所述防水盖用于防止外界的水接触发光灯 的接电部分;该防水盖包括顶端与底端,所述顶端的外径小于底端的外径;所述防水盖开设有防水空间,该防水空间贯穿所述底端;所述防水盖的外周壁倾斜设置,方便水沿着防水盖的外周壁由顶端朝着底端的方向流动;所述发光灯的接电源端部穿插在防水空间内,所述防水盖的顶端开设有第一通孔;所述第一通孔贯穿该顶端且与安装空间连通;该第一通孔方便发光灯连接电源;
所述第一通孔内设置有防水垫圈,该防水垫圈为硅橡胶垫片、氯丁橡胶垫片或者三元乙丙橡胶垫片材料制成;所述防水垫圈上设有开口,在无外力情况下,由于垫圈材质具有一定弹性的原因会将开口封闭;当通过外力将硬质的棍棒从开口穿过时,可将开口打开,此时开口周边的防水垫圈紧紧贴合在棍棒上,以实现在硬质的棍棒穿过第一通孔时达到防水的效果;
所述蓄电池包括电池本体及固定于电池本体上的第一电极,所述电池本体安装于壳体上,用于存储太阳能板产生的电量;所述发光灯包括发光体及与发光体固接的第二电极;所述第二电极包括两个或者两个以上的金属弹片,各金属弹片分别间隔设置;在第一电极与第二电极接触时,所述第一电极的部分插在金属弹片之间的间隙内,并与至少两个金属弹片接触;所述第一电极穿过防水盖的第一通孔与发光灯的接电源端部连接,使得电池本体通过第一电极为发光灯供电;
所述太阳能装置还包括角度调节架,所述太阳能板安装于该角度调节架上;所述角度调节架安装于所述壳体上,并至少包括一个安装面;所述角度调节架包括安装框、安装杆及定位件;所述安装框包括 框体及与框体固接的调节管,所述调节管内部中空及两端开,该调节管可套上于安装杆上,并且可相对安装杆相对转动;所述调节管上开设有调节孔,所述调节孔与调节管的内部中空部分连通;所述调节孔的数量为两个以上。
优选的,所述第一电极为金属柱子。
本发明的有益效果:
本发明所述的物理式灭蚊灯通过太阳能装置产生电能,并由蓄电池进行存储,然后再为发光灯的发光供电,因此进行将太阳能装置安放在发光灯附近即可使得发光灯工作,所以本发明的灭蚊灯可以根据需要安装于不同的地方。另外通过将第一电极与第二电极以可拆卸的方式连接,安装时仅需将第一电极与第二电极对齐,通过外界的推力将第一电极的部分穿插至第二电极内即可实现电性连接,而无需借助其他外界的工具安装,因此其安装与拆卸时都非常方便。
附图说明
图1为本发明的实施例中一种物理式灭蚊灯结构示意图;
图2为图1所示一种物理式灭蚊灯的分解视图;
图3为本发明的实施例中一种角度调节架分解示意图。
具体实施方式
下面,结合附图以及具体实施方式,对本发明做进一步描述:
参照图1、图2,本实施例涉及一种物理式灭蚊灯,包括壳体1、供水容器2、回水容器3、布水组件4及发光灯5。所述发光灯5安装于壳体1内。所述回水容器3位于发光灯5和/或布水组件4的下 方。所述供水容器2与回水容器3之间通过导管(图中未示出)导通。所述布水组件4用于将供水容器2内的水分布至发光灯5的外周,如此可实现当有昆虫飞向发光灯5时可被水击落而淹死。当然如果将该物理式灭蚊灯放置于室内时可以避免安装壳体1。
所述壳体1包括防水盖11。所述防水盖11用于防止外界的水接触发光灯5的接电部分,导致漏电等情况。该防水盖11包括顶端111与底端112。所述顶端111的外径小于底端的外径。所述防水盖11开设有防水空间110,该防水空间110贯穿所述底端112。所述防水盖11的外周壁113倾斜设置,方便水沿着防水盖11的外周壁113由顶端111朝着底端112的方向流动。所述发光灯5的接电源端部穿插在防水空间110内。所述防水盖11的顶端111开设有第一通孔111a。所述第一通孔111a贯穿该顶端11且与安装空间110连通。该第一通孔111a方便发光灯5连接电源。
为了更好地防止发光灯5的接电源部分接触水,在所述第一通孔111a内设置有防水垫圈111b。该防水垫圈111b可为硅橡胶垫片、氯丁橡胶垫片或者三元乙丙橡胶垫片等材料制成。所述防水垫圈111b上设有开口111c,在无外力情况下,由于垫圈材质具有一定弹性的原因会将开口111c封闭。当在通过外力硬质的棍棒从开口111c穿过时,可将开口111c打开,此时开口111c周边的防水垫圈111b可紧紧贴合在棍棒上,如此可以实现在硬质的物料穿过第一通孔111a且防水的效果。
为了提高环保效果,本发明的实施例还提供另一种物理式灭蚊 灯,该物理式灭蚊灯还可以包括太阳能装置9。该太阳能装置9可用于为物理式灭蚊灯的发光灯等元件供电。所述太阳能装置9包括太阳能板91及用于存储太阳能电池所产生电能的蓄电池92。所述太阳能板91根据本领域技术人员可得出的,能将太阳能转换为电能的太阳能板91。所述太阳能板91的电量输出端与蓄电池92连接。所述蓄电池92与发光灯5电性连接,该蓄电池92存储的能量可以用于为发光灯5的发光提供能量和/或者为供水器7的工作提供能量。所述蓄电池92即可通过太阳能板91进行充电,也可通过市电进行充电。
本发明的实施例中,所述太阳能装置9可安装于壳体1。当然可以通过其他支撑件(例如柱子或者三脚架等物件)进行安装。所述太阳能板91安装于防水盖11的顶端。所述蓄电池92包括电池本体92a及第一电极92b。所述电池本体92用于存储太阳能板91的产生的电量。所述第一电极92b可穿过防水盖11的第一通孔111a与发光灯5的接电源端部连接,从而使得电池本体92a可通过第一电极92b为发光灯5供电。所述第一电极92b可为金属柱子。
所述发光灯5的接电源端部包括有第二电极51,该第二电极51与发光灯5的发光体连接。该第二电极51可为金属弹片。所述第一电极92b在与第二电极51接触之后实现蓄电池92与发光灯5电性连接。所述第二电极51可由数量为两个或者两个以上的金属弹片组合而成。各金属弹片分别间隔设置,当第一电极92b在与第二电极51接触时,所述金属柱子可穿插在金属弹片之间的间隙内,从而使得金属柱子可被金属弹片夹住,即金属柱子可与至少两个金属弹片接触。 所述发光灯5可为紫外线灯。
作为另一实施例,所述第一电极92b与第二电极51的位置可以互换。
作为另一实施例,所述第二电极51可为金属涂层。具体地可在发光灯5的接电源端部开设与第一电极92b匹配的连接孔。在该连接孔的孔壁和/或连接孔的周边涂覆金属涂层形成第二电极51。当第一电极92b穿插至该连接孔时,所述金属涂层可与第一电极92b接触而实现电性连接。
如此通过将第一电极92b与第二电极51以金属弹片的方式连接或者以在连接孔涂覆金属涂层的方式连接,安装时仅需将第一电极92b与第二电极51对齐,通过外界的推力将第一电极92b穿插至第二电极51内即可实现电性连接,而无需借助其他外界的工具安装,因此其安装于拆卸时都非常方便。
所述太阳能装置9还可以包括角度调节架93。所述太阳能板91安装于角度调节架93上。如此可以实现调节太阳能板91与太阳光线之间的角度,从而使得太阳能板91更好的接收太阳光线,增大太阳能装置9转换电能的效率。所述角度调节架93至少包括一个安装面93a。所述角度调节架93可为防水盖11的一部分,如此可使得调节架上的安装面93a可为防水盖11的顶端111。本实施例中,以安装面93a为两个为例对该角度调节架93进行说明。
参照图3,所述角度调节架93包括安装框931、安装杆932及定位件933。所述安装框931包括框体9311及与框体9311固接的调节 管9312。所述调节管9312内部中空及两端开口。该调节管9312可套上于安装杆932上,并且可相对安装杆932相对转动。所述调节管9312上开设有调节孔9313,所述调节孔9313与调节管9312的内部中空部分连通。所述调节孔9313的数量为两个以上。可根据实际需要将调节孔9313进行分组,例如可将2-6个调节孔9313作为一组。每一组调节孔9313的中心位于同一圆的圆周线上。所述框体9311上设置有所述安装面931a,其用于安装太阳能板91和蓄电池92。
以下对本发明的物理式灭蚊灯工作原理进行描述:将壳体1、供水容器2、回水容器3、布水组件4及发光灯5等部件组合好之后形成物理式灭蚊灯。为发光灯5供电使得发光灯5发光,利用昆虫的趋光特性将昆虫吸引至发光灯5灯壁上和/或其附近。在供水容器2内补充水,当供水容器2内的压强达到预定值之后,可通过布水组件4将水喷射或者引流至发光灯5灯壁上和/或其附近,实现通过水将昆虫杀死。另外可通过回水容器3将杀过昆虫的水进行回收,并将回水的水导入供水容器2实现循环利用。
另外,为了环保可通过太阳能装置9为发光灯5进行供电。为了太阳能装置9更多的吸收到太阳光,还可通过角度调节架93对太阳能板91的角度进行调整。
对本领域的技术人员来说,可根据以上描述的技术方案以及构思,做出其它各种相应的改变以及形变,而所有的这些改变以及形变都应该属于本发明权利要求的保护范围之内。

Claims (2)

  1. 一种物理式灭蚊灯,其特征在于,包括壳体、发光灯以及太阳能装置,所述发光灯安装于壳体内;所述太阳能装置包括太阳能板及蓄电池;所述太阳能板的电量输出端与蓄电池连接;
    所述壳体包括防水盖,所述防水盖用于防止外界的水接触发光灯的接电部分;该防水盖包括顶端与底端,所述顶端的外径小于底端的外径;所述防水盖开设有防水空间,该防水空间贯穿所述底端;所述防水盖的外周壁倾斜设置,方便水沿着防水盖的外周壁由顶端朝着底端的方向流动;所述发光灯的接电源端部穿插在防水空间内,所述防水盖的顶端开设有第一通孔;所述第一通孔贯穿该顶端且与安装空间连通;该第一通孔方便发光灯连接电源;
    所述第一通孔内设置有防水垫圈,该防水垫圈为硅橡胶垫片、氯丁橡胶垫片或者三元乙丙橡胶垫片材料制成;所述防水垫圈上设有开口,在无外力情况下,由于垫圈材质具有一定弹性的原因会将开口封闭;当通过外力将硬质的棍棒从开口穿过时,可将开口打开,此时开口周边的防水垫圈紧紧贴合在棍棒上,以实现在硬质的棍棒穿过第一通孔时达到防水的效果;
    所述蓄电池包括电池本体及固定于电池本体上的第一电极,所述电池本体安装于壳体上,用于存储太阳能板产生的电量;所述发光灯包括发光体及与发光体固接的第二电极;所述第二电极包括两个或者两个以上的金属弹片,各金属弹片分别间隔设置;在第一电极与第二电极接触时,所述第一电极的部分插在金属弹片之间的间隙内,并与至少两个金属弹片接触;所述第一电极穿过防水盖的第一通孔与发光 灯的接电源端部连接,使得电池本体通过第一电极为发光灯供电;
    所述太阳能装置还包括角度调节架,所述太阳能板安装于该角度调节架上;所述角度调节架安装于所述壳体上,并至少包括一个安装面;所述角度调节架包括安装框、安装杆及定位件;所述安装框包括框体及与框体固接的调节管,所述调节管内部中空及两端开,该调节管可套上于安装杆上,并且可相对安装杆相对转动;所述调节管上开设有调节孔,所述调节孔与调节管的内部中空部分连通;所述调节孔的数量为两个以上。
  2. 根据权利要求1所述的物理式灭蚊灯,其特征在于,所述第一电极为金属柱子。
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