CN220476695U - Deinsectization device and landscape lamp - Google Patents
Deinsectization device and landscape lamp Download PDFInfo
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- CN220476695U CN220476695U CN202321973108.XU CN202321973108U CN220476695U CN 220476695 U CN220476695 U CN 220476695U CN 202321973108 U CN202321973108 U CN 202321973108U CN 220476695 U CN220476695 U CN 220476695U
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- 241000238631 Hexapoda Species 0.000 claims abstract description 233
- 241000255925 Diptera Species 0.000 claims abstract description 89
- 241000607479 Yersinia pestis Species 0.000 claims description 8
- 238000001816 cooling Methods 0.000 claims description 3
- 230000017525 heat dissipation Effects 0.000 claims description 3
- 230000000694 effects Effects 0.000 abstract description 17
- 238000007664 blowing Methods 0.000 abstract 1
- 230000003116 impacting effect Effects 0.000 description 12
- 238000009423 ventilation Methods 0.000 description 11
- 230000009471 action Effects 0.000 description 7
- 230000007246 mechanism Effects 0.000 description 7
- 230000000903 blocking effect Effects 0.000 description 6
- 230000005484 gravity Effects 0.000 description 6
- 238000001179 sorption measurement Methods 0.000 description 6
- 238000010521 absorption reaction Methods 0.000 description 4
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 238000004140 cleaning Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- 230000000749 insecticidal effect Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 239000011664 nicotinic acid Substances 0.000 description 2
- 238000010408 sweeping Methods 0.000 description 2
- 206010013647 Drowning Diseases 0.000 description 1
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
- -1 acryl Chemical group 0.000 description 1
- 229910002092 carbon dioxide Inorganic materials 0.000 description 1
- 239000001569 carbon dioxide Substances 0.000 description 1
- 230000000052 comparative effect Effects 0.000 description 1
- 239000000498 cooling water Substances 0.000 description 1
- 230000003670 easy-to-clean Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 239000011521 glass Substances 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 239000002418 insect attractant Substances 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000001151 other effect Effects 0.000 description 1
- 230000029264 phototaxis Effects 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 239000000741 silica gel Substances 0.000 description 1
- 229910002027 silica gel Inorganic materials 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Landscapes
- Catching Or Destruction (AREA)
Abstract
The utility model discloses an insect killing device and a landscape lamp, wherein the insect killing device comprises a shell, an insect attracting device for attracting mosquitoes to approach and an insect collecting device for collecting the mosquitoes are arranged in the shell, a fan device for sucking the mosquitoes attracted by the insect attracting device downwards and sending the mosquitoes to the insect collecting device along the shell downwards wind is arranged between the insect attracting device and the insect collecting device, and an insect attracting light source is arranged on the fan device. The device utilizes the insect attracting device and the insect attracting light source to attract insects together, so that the insect attracting effect is improved; the mosquito is sucked downwards along the shell by the fan device and is sent to the insect collecting device by air, so that the insect killing efficiency is greatly improved, the air blowing characteristics of the fan device are fully utilized, the utilization rate of the fan device is higher, and the energy is saved. The device reasonable in design, simple structure can be applied to the landscape lamp, makes the landscape lamp increase deinsectization function, and application scope is wide.
Description
Technical Field
The utility model relates to the technical field of insect attracting and killing, in particular to an insect killing device. In addition, the utility model also relates to a landscape lamp comprising the deinsectization device.
Background
Along with the development of scientific technology and the enhancement of environmental protection consciousness of people, people begin to develop a corresponding insect killing device by utilizing the phototaxis of mosquitoes to kill the mosquitoes. According to different modes of killing, the disinfestation devices can be divided into three categories of electric shock type, wind suction type and drowning type. The working principle of the wind-suction type insect-killing lamp is that the insect-trapping lamp is used for attracting mosquitoes to the fan opening, then the fan is used for rotating at high speed to generate airflow vortex to form negative pressure, the mosquitoes are pressed into the insect-collecting box, and the mosquitoes are trapped and killed in the insect-collecting box, so that the purpose of killing the mosquitoes is achieved.
The utility model discloses a wind-sucking type insecticidal lamp as in application number CN211932199U, including the stand, the upper end of stand is provided with the absorption chamber, and absorption chamber top is provided with lures the worm room, lures the indoor worm light source that is provided with of worm, lures the worm light source be provided with the striking screen all around, and absorption chamber and lure the worm room to switch on, installs adsorption fan in the absorption chamber, lures worm light source and adsorption fan all to be connected with the controller electricity, and controller and adsorption fan all are connected with the power module electricity. Insect is attracted by the insect attracting light source, then the insect is impacted on the impact screen and falls into the adsorption cavity, and the fan in the adsorption cavity can suck all the insect around the light source into the adsorption cavity, prevent the insect from escaping and completely kill the insect.
Comparative studies on the prior art wind-sucking insecticidal lamp show that the following problems exist: the existing wind-sucking type insect-killing lamp is generally provided with only one insect-trapping lamp at the air port, so that the insect-trapping effect is poor; and the structure is limited, and on the premise that the area of an air suction inlet is unchanged and the structure of an air vane is fixed, the mosquito-killing effect can be improved only by continuously increasing the power of a fan, and the mode is high in energy consumption and cost, and is not beneficial to the large-scale use and popularization of the air suction type insect-killing lamp.
Disclosure of Invention
The utility model provides an insect killing device and a landscape lamp, which are used for solving the technical problems of low insect trapping and killing efficiency and poor effect of the existing insect killing device.
According to one aspect of the utility model, there is provided an insect killing device, comprising a housing, wherein an insect attracting device for attracting mosquitoes to approach and an insect collecting device for collecting mosquitoes are arranged in the housing, a fan device for sucking the mosquitoes attracted by the insect attracting device downwards and sending the mosquitoes to the insect collecting device along the housing downwards is arranged between the insect attracting device and the insect collecting device, and an insect attracting light source is arranged on the fan device.
Further, the fan device adopts a fan, the fan is connected to the shell through a connecting piece, and the airflow suction end of the fan is arranged towards the insect attracting device.
Further, the insect attracting light source is arranged on the fan and/or the connecting piece.
Further, the fan device also comprises an air guide pipe, and the air guide pipe is arranged at the air flow output end of the fan and is fixedly connected with the shell or the connecting piece.
Further, an insect attracting branch pipe is arranged between the fan device and the insect collecting device.
Further, the periphery of the insect attracting device is covered with a first impact body for protecting the insect attracting device and forming impact force on mosquitoes attracted by the insect attracting device and/or the insect attracting light source, and/or the periphery of the insect attracting branch pipe is sleeved with a second impact body for protecting the insect attracting branch pipe and forming impact force and/or auxiliary guiding the mosquitoes attracted by the insect attracting device, the insect attracting branch pipe and/or the insect attracting light source; the first impacting body and/or the second impacting body are/is connected to the shell, the insect attracting device, the insect attracting branch pipe and/or the fan device.
Further, the first impact body and/or the second impact body are/is of a transparent body structure; and/or a light diffuser for diffusing light is arranged on the first impact body and/or the second impact body.
Further, the insect collecting device comprises a guide plate for guiding the air flow generated by the fan device to the insect collecting device in a directional way and an escape preventing device for preventing mosquitoes entering the insect collecting device from escaping, wherein the guide plate is used for guiding the air flow generated by the fan device to the insect collecting device in a directional way; the guide plate encloses and forms the collection worm storehouse of vertical cross-section triangle-shaped and the big end opening orientation fan device direction, and anti-escape device arranges in the bottom in collection worm storehouse and with guide swing joint.
Further, at least one of a heat dissipation device for cooling the insect attracting device, a power supply for supplying power and a shielding cover for shielding from the upper side is arranged above the shell.
According to another aspect of the present utility model, there is also provided a landscape lamp including the above-mentioned vermin exterminating apparatus.
The utility model has the following beneficial effects:
according to the insect killing device, the fan device is arranged in the area between the insect trapping device and the insect collecting device, when mosquitoes enter the area, the mosquitoes flying into the area above the fan device are subjected to downward suction force, and the mosquitoes entering the area below the fan device are subjected to air supply force in the insect collecting device, so that the mosquitoes entering the area are ensured to be blown into the insect collecting device, the air supply characteristics of the fan device are fully utilized, the utilization rate of the fan device is higher, and the energy is saved; the fan device below the insect attracting device is provided with an insect attracting light source, and the insect attracting light source and the insect attracting device are adopted to attract insects together, so that the insect attracting effect is effectively improved; the suction that produces through the fan that is located the insect trapping device below will lure the mosquito of insect trapping device downward suction and send to the album worm device along the casing downwind in, contact distance with the mosquito is nearer, can solve the stronger or great mosquito escape's of body type problem of flying ability, under the prerequisite that does not increase fan power, strengthens the deinsectization effect greatly, reduces the energy consumption, practices thrift the cost, improves deinsectization ability of deinsectization device.
Optionally, a first impact body is covered on the periphery of the insect attracting device, so that the insect attracting device can be protected and mosquitoes can be blocked, the insects attracted by the insect attracting device are prevented from directly contacting and adhering to the insect attracting device to influence the insect attracting effect, meanwhile, the insects attracted by the insect attracting device collide with the outer surface of the first impact body, and certain damage can be caused to the insects to enable the insects to fall; optionally, an air guide pipe is arranged below the fan device, the air guide pipe can guide air flow generated by the fan device and mosquitoes sucked by the fan device in a directional manner, so that the air conveying effect is enhanced, and optionally, a second impact body is arranged below the air guide pipe and is used for carrying out secondary collision on the mosquitoes blown by the fan device, so that the deinsectization effect is further enhanced; optionally, the first impacting body and/or the second impacting body are/is provided with a light diffuser for diffusing light, so that the insect attracting device arranged in the first impacting body and/or the light source emitted by the insect attracting branch pipe arranged in the second impacting body can be diffused to a longer distance, the insect attracting range is enlarged, and the insect attracting effect is improved. Optionally, the insect collecting device is provided with an escape preventing device, so that the sucked mosquitoes can be prevented from escaping reversely, and the insect trapping effect of the insect collecting device is ensured.
In addition to the objects, features and advantages described above, the present utility model has other objects, features and advantages. The present utility model will be described in further detail with reference to the drawings.
Drawings
The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:
fig. 1 is a schematic structural view of a vermin exterminating apparatus according to a preferred embodiment of the present utility model.
Legend description:
100. a housing; 200. an insect attracting device; 300. an insect collecting device; 301. a guide plate; 302. an escape prevention device; 400. a fan device; 401. a blower; 402. a connecting piece; 403. an air guide pipe; 500. an insect attracting light source; 600. a first striker; 700. a second striker; 800. and a branch pipe for attracting insects.
Detailed Description
Embodiments of the utility model are described in detail below with reference to the attached drawing figures, but the utility model can be practiced in a number of different ways, as defined and covered below.
Fig. 1 is a schematic structural view of a vermin exterminating apparatus according to a preferred embodiment of the present utility model.
As shown in fig. 1, the utility model discloses an insect killing device, which comprises a shell 100, wherein an trapping area with an open structure is arranged above the shell 100, an insect attracting device 200 and a fan device 400 are arranged in the trapping area, the fan device 400 is arranged below the insect attracting device 200, an insect attracting light source 500 is arranged on the fan device 400, and an insect collecting device 300 is arranged below the shell 100. Specifically, the insect attracting light source 500 on the insect attracting device 200 and the fan device 400 attracts the mosquitoes into the trapping area, and then the wind power generated by the fan device 400 sucks the attracted mosquitoes downwards and sends the attracted mosquitoes into the insect collecting device 300 downwards along the shell 100 and air-dries the attracted mosquitoes, so that the purpose of killing the mosquitoes efficiently is achieved.
As shown in fig. 1, the fan device 400 adopts a fan 401, the fan 401 is connected to the housing 100 through a connecting piece 402, an air flow suction end of the fan 401 is arranged towards the insect attracting device 200, and an air flow output end of the fan 401 is communicated with the insect collecting device 300. When the insect attracting device is used, the insect attracting light source 500 on the insect attracting device 200 and the fan 401 is started to attract mosquitoes to the fan 401, and meanwhile, the fan 401 is started to exhaust air towards the trapping area with the open structure, so that the mosquitoes attracted by the insect attracting device 200 and the insect attracting light source 500 which are located in the trapping area are quickly sucked into the insect collecting device 300 and are air-dried, and the purpose of killing the mosquitoes is achieved. Alternatively, the connecting piece 402 may be a connecting rod, a connecting ring, a connecting frame, or the like, so that the connecting piece 402 forms a hollow bracket connection structure as much as possible, so as to avoid blocking or other effects on the fan 401 caused by the induced draft or the supplied air. Optionally, a protection device is disposed on the periphery of the blower 401 to prevent the blower 401 from being damaged by an external false touch when rotating. Optionally, the protection device is a protection net arranged on the periphery of the fan 401, so as to avoid damage caused by touching the fan 401 when the protection net directly stretches into the position of the fan 401 from the outside of the disinsection device, and a gap is reserved between the protection net and the fan 401, and optionally, the protection net is arranged on the periphery of the fan 401 and is fixed on the shell 100 and/or the connecting piece 402.
As shown in fig. 1, the insect attracting light source 500 is disposed on the blower 401 and/or the connecting piece 402, alternatively, the insect attracting light source 500 may be disposed at any fixing position of the blower 401, alternatively, the insect attracting light source 500 may be disposed at a center axis position of the blower 401, also may be fixed on an impeller of the blower 401, alternatively, the insect attracting light source 500 may be disposed on a blade of the blower 401. Optionally, the insect attracting light source 500 is disposed upwardly and/or downwardly. Optionally, the insect attracting light source 500 may be disposed at least one of the blade root, the blade body, and the blade tip of the fan blade; alternatively, the insect attracting light source 500 may be disposed within the base of the fan blade, alternatively, the fan blade may be of a transparent structure. Optionally, the insect attracting light source 500 employs an LED light source or an ultraviolet light source, and optionally, the LED light source or the ultraviolet light source employs a nano-band with a wavelength of 350nm to 680nm to achieve the best insect attracting effect. Optionally, the insect attracting light source 500 may be electrically connected to the blower 401 such that the insect attracting light source 500 may be operated and turned off simultaneously with the blower 401; alternatively, the insect attracting light source 500 may be connected to an independent power supply to control the on/off of the insect attracting light source individually.
As shown in fig. 1, the fan device 400 further includes an air guide pipe 403, where the air guide pipe 403 encloses the fan 401 and is disposed at an air flow output end of the fan 401, and is fixedly connected with the connecting piece 402 to form an air guide channel, so that air flow generated by the fan 401 and mosquitoes sucked by the fan 401 are gathered and guided in a direction in the air guide channel, and air conveying efficiency is greatly improved. Alternatively, the air guide duct 403 may be connected to the housing 100. Alternatively, the air guide pipe 403 may be a polygonal cylinder, a polygonal frustum, a truncated cone, or a polygonal cone. Optionally, the air guide pipe 403 may be a venturi pipe, so that the air flow output by the fan 401 flows at a speed increasing, and the purpose of providing the high wind air flow by the low-power fan 401 is further achieved, thereby achieving the purpose of saving energy. Alternatively, the air guide duct 403 may be a transparent structure.
As shown in fig. 1, the outer circumference of the insect-attracting device 200 is covered with a first striker 600 for preventing mosquitoes from contacting and adhering to the insect-attracting device 200 and forming a striking force against the mosquitoes attracted by the insect-attracting device 200 and/or the insect-attracting light source 500, the first striker 600 being connected to the housing 100 and/or the insect-attracting device 200; optionally, the first impacting body 600 is an inverted cone with a large top and a small bottom, so as to guide the mosquitoes impacting on the first impacting body 600, and enable the mosquitoes to be ejected downwards after impacting on the inclined plane; optionally, the outer surface of the first striker 600 is smooth, so that the mosquito can quickly slide down along the conical surface under the action of gravity after striking on the outer wall of the first striker 600, and the mosquito is prevented from accumulating or adhering on the first striker 600 to affect the insect attracting effect.
As shown in fig. 1, an insect attracting branch pipe 800 is arranged between the fan device 400 and the insect collecting device 300, the outer periphery of the insect attracting branch pipe 800 is covered with a second impact body 700 for protecting the insect attracting branch pipe 800 and forming impact force and/or auxiliary guiding the mosquitoes attracted by the insect attracting device 200, the insect attracting branch pipe 800 and/or the insect attracting light source 500, and the second impact body 700 is connected to the shell 100, the insect attracting branch pipe 800 and/or the fan device 400. Optionally, the second impacting body 700 is a positive cone with a small top and a large bottom, so that the second impacting body can guide the airflow of the fan device 400 and/or the mosquitoes blown by the fan device 400, and can also prevent the mosquitoes with certain flying capability from flying upwards and escaping to a certain extent; optionally, the outer surface of the second striker 700 is smooth, so that the second striker can slide down along the conical surface under the action of gravity, thereby improving the disinfestation efficiency.
As shown in fig. 1, the first striker 600 and/or the second striker 700 adopts a transparent structure that does not affect light. Alternatively, the first striker 600 and/or the second striker 700 are glass plate strikers, PC plate strikers, acryl plate strikers, or plastic plate strikers. Alternatively, the first striker 600 and/or the second striker 700 may be formed by splicing a plurality of straight plates to each other, or may be made of one straight plate through a folding, curling or stretching process. Alternatively, the first striker 600 and/or the second striker 700 may be a polygonal cylinder, a polygonal frustum, a truncated cone, a polygonal cone, a sphere, etc., and have a better blocking effect and a better protection effect on the insect attracting device 200 and/or the insect attracting branch pipe 800 than a single protection plate. Optionally, a light diffuser for diffusing light is arranged on the first impact plate 600 and/or the second impact plate, alternatively, the light diffuser may be fixedly installed on the first impact plate 600 and/or the second impact plate 700, or may be machined into an integrated structure with the first impact plate 600 and/or the second impact plate 700; alternatively, the light diffuser may be a fresnel lens or a light diffuser.
Optionally, if the insect attracting device 200 and/or the insect attracting branch pipe 800 uses gas to attract insects, the first impact body 600 covered on the periphery of the insect attracting device 200 and/or the second impact body 700 covered on the periphery of the insect attracting branch pipe 800 may also be provided with ventilation holes, optionally, capillary holes with the aperture size of 0.3 mm-1 mm of the ventilation holes are used for better blocking mosquitoes and guaranteeing ventilation quantity, optionally, the outer ends of the ventilation holes are arranged in a downward inclined manner, so that the vertical impact of the mosquitoes can be prevented, and downward inclined blast holes can be formed to facilitate the mosquitoes to drop downwards for cleaning, so that the outer surfaces of the first impact body 600 and/or the second impact body 700 are guaranteed to be clean. When the aperture of the ventilation holes is larger than 1mm, mosquitoes can enter the first impact body 600 to contact with the insect attracting device 200 and/or mosquitoes enter the second impact body 700 to contact with the insect attracting branch pipe 800 to influence the insect attracting effect, and when the aperture of the ventilation holes is smaller than 0.3mm, the ventilation holes can block the mosquitoes, but the ventilation quantity is insufficient and cannot blow.
As shown in fig. 1, the insect collecting device 300 includes a guide plate 301 and an anti-escape device 302, the guide plate 301 encloses an insect collecting bin with a triangular vertical section and a large end opening facing the direction of the fan device 400, and the bottom of the insect collecting bin encloses an insect storage cavity with the housing 100. The guide plate 301 is inclined towards the insect storage cavity and is used for being matched with the fan device 400 to form a guide channel, mosquitoes attracted by the insect attracting device 200, the insect attracting branch pipe 800 and/or the insect attracting light source 500 on the fan device 400 are guided in a directional way by air flow generated by the fan device 400 so as to be convenient for collecting the mosquitoes, and optionally, the inner surface of the guide plate 301 is smooth so that the mosquitoes can fall down along the guide plate 301 in the insect collecting bin, and the air conveying and insect killing efficiency is improved. Meanwhile, the obliquely arranged guide plate 301 has a certain blocking effect on mosquitoes entering the insect storage cavity, and the mosquitoes entering the insect storage cavity can be effectively prevented from flying out.
As shown in fig. 1, the anti-escape device 302 is arranged at the bottom of the insect collecting bin, optionally, the anti-escape device 302 adopts a non-return plate, one end of the non-return plate is movably connected to the guide plate 301 at the bottom of the insect collecting bin, when the fan 401 performs suction operation and wind-feeds the insect collecting bin, the non-return plate is in an open state with the guide plate 301 of the insect collecting bin under the wind-feeding force, namely, the opening at the bottom of the insect collecting bin is opened, so that the fan 401 can smoothly wind-feed mosquitoes from the insect collecting bin into the insect storage cavity, and when the fan 401 stops working, the non-return plate is in a vertical state under the action of self gravity so as to be closed with the guide plate 301 of the insect collecting bin, namely, the opening at the bottom of the insect collecting bin is closed, thereby the mosquitoes fed into the insect storage cavity cannot reversely fly out from the insect collecting bin, and escape is prevented. Optionally, the non-return plate in a free state is covered on the air port which is vertically arranged or the lower end of the non-return plate is inclined towards the non-return plate under the action of self gravity; preferably, the air port is vertical, and the non-return plate is attached to the air port under the action of self gravity to close the air port, and is opened under the action of the wind-driven force of the fan 401. Optionally, the non-return plate can be electrically connected with a driving device to serve as a non-return valve, and the driving device controls the rotation of the non-return plate to open or close the insect collecting bin; optionally, the driving device is connected in series with the fan device 400 and the non-return plate to enable the non-return plate to operate synchronously with the fan 401, namely when the driving device is started to drive the fan 401 to operate, the non-return plate and the guide plate 301 of the insect collecting bin are in an open state, so that mosquitoes sucked by the fan 401 can smoothly fall into the insect storage cavity from the insect collecting bin, when the driving device is closed, the fan 401 stops operating, the non-return plate and the guide plate 301 of the insect collecting bin are in a closed state, and therefore the mosquitoes conveyed into the insect storage cavity cannot fly reversely from the insect collecting bin, and the escape of the mosquitoes is effectively avoided; optionally, the driving device is a gear motor, a linear motor, a synchronous motor, or the like. Optionally, the non-return plate is movably hinged with the guide plate 301 of the insect collecting bin; optionally, the non-return plate is detachably connected with the guide plate 301 of the insect collecting bin by adopting a clamping groove in a clamping way, so that not only is the blocking effect ensured, but also the anti-escape device 302 is convenient to disassemble and assemble or replace when aged or damaged, and is easy to clean when too much accumulated mosquitoes; optionally, the non-return plate is an elastic piece such as rubber, silica gel, a plastic elastic piece, a metal elastic piece, etc., so that the non-return plate can be elastically buckled on the guide plate 301 of the insect collecting bin.
As shown in fig. 1, a device for taking out mosquitoes is provided on the housing 100 at the insect storage chamber. Optionally, an insect storage bin is arranged in the insect storage cavity, and a bin gate for taking and placing the insect storage bin is arranged on the shell 100. Optionally, the insect storage bin is detachably arranged in the insect storage cavity, and the insect storage bin is removed to clean mosquitoes; alternatively, the insect storage bin can be a box body, a bag body, or the insect storage bin can be a net bag, a net box and the like. Optionally, an insect collecting net is paved in the insect storage bin, and the insect collecting net can be directly taken out by opening the bin gate, so that the insect storage bin is convenient to clear. Optionally, a mosquito sweeping device for cleaning mosquito bodies and an openable insect discharge port are directly arranged at the bottom of the insect collecting bin of the shell 100, and mosquitoes of the mosquito sweeping device are swept out by opening the insect discharge port; optionally, set up the collection worm drawer in order to collect the mosquito corpse in casing 100 bottom, collection worm drawer is movable to set up with casing 100 relatively, pulls out collection worm drawer and can clear up fast. Optionally, an insect collecting net is paved in the insect collecting drawer, and the insect collecting net can be directly taken out after the insect collecting drawer is opened, so that the insect collecting drawer is convenient to clear.
As shown in fig. 1, a plurality of ventilation holes communicated with the insect collecting bin are formed in the side wall of the bottom of the shell 100. The vent hole and the air inlet of the upper portion of the housing 100 form a wind circulation to accelerate the flow of wind and improve the vermin exterminating efficiency. The aperture of the vent hole is 0.3 mm-1 mm so as to ensure ventilation and prevent mosquitoes from flying out. When the vent hole diameter is greater than 1mm, can lead to the mosquito to fly out from the casing 100 and cause the mosquito escape, and when the vent hole diameter is less than 0.3mm, although can play the effect that blocks the mosquito, but can lead to the ventilation volume not enough air not to circulate and cause fan 401 suction inefficiency, the deinsectization effect is poor.
As shown in fig. 1, the insect attracting device 200 and/or the insect attracting branch pipe 800 includes a bionic insect attracting unit module including a trap lamp module, and at least one of an insect attractant module, a heating module, or a carbon dioxide preparation module; the bionic insect-attracting unit modules are provided with the connecting mechanisms, can be used independently, can be assembled and used freely according to factors such as areas, environments and mosquito types, and can be detachably and fixedly connected and/or detachably electrically connected through the connecting mechanisms. The shell 100 is provided with a connecting device for installing the insect attracting device 200 and/or the insect attracting branch pipe 800, and the connecting device is matched with the connecting mechanism so that the insect attracting device 200 and/or the insect attracting branch pipe 800 can be detachably and fixedly connected and/or detachably electrically connected with the shell 100 through the connecting mechanism. Optionally, the connecting device and the connecting mechanism are connected by magnetic attraction, flange connection, clamping connection, threaded connection or bolt connection; alternatively, the connection device may be an interface directly arranged on the housing 100 and adapted to the connection mechanism of the insect attracting device 200 and/or the insect attracting branch pipe 800, or may be a connection rod, a connection ring, a connection frame, or the like, on which an interface adapted to the connection mechanism of the insect attracting device 200 and/or the insect attracting branch pipe 800 is arranged.
As shown in fig. 1, at least one of a heat sink for cooling the insect attracting device 200, a power supply for supplying power, and a shielding cover for shielding from above is further provided above the casing 100. Optionally, the heat dissipating device adopts a heat dissipating fan, a cooling water pipe and the like; optionally, the power source may be an external power source electrically connected to the pest killing device, where the external power source is connected in series with the heat dissipating device, the pest trapping device 200, the fan device 400 and the anti-escape device 302 to jointly control the on/off of the pest killing device, or the external power source is connected in parallel with the heat dissipating device, the pest trapping device 200, the fan device 400 and the anti-escape device 302 to independently control the on/off of the pest killing device, and optionally, the external power source may be a solar power supply device; optionally, the power source may also be a rechargeable battery, and the rechargeable battery is installed in the heat dissipation device, the insect attracting device 200, the fan device 400, and the anti-escape device 302, so that the device can continue to operate through the power supply of the rechargeable battery in a power failure state, and the endurance of the device is improved. Optionally, the shielding cover is arranged to be a cone with inclination, so that the mosquitoes can slide along the slope of the cone under the action of gravity after contacting the shielding cover, and the mosquitoes are prevented from adhering to the shielding cover to be accumulated. Meanwhile, the shielding cover is positioned at the top of the shell 100, can also play a role in shading sun and retaining water for the fan device 400, the insect attracting device 200 and the whole shell 100, and prolongs the service life of equipment. Optionally, the shielding cover is a transparent cover body, or a plurality of through holes are uniformly distributed on the shielding cover, or the shielding cover is a transparent cover body uniformly distributed with a plurality of through holes, so as to avoid shielding light and/or smell of the insect attracting device 200. Optionally, the shielding cover can be a solar panel, so that the shielding cover can provide electric energy for the insect killing device while blocking mosquitoes, and the device is more energy-saving and environment-friendly. Optionally, the shielding cover is in the shape of a cone, a pyramid or a slope with radian, etc.
According to another aspect of the present utility model, there is also provided a landscape lamp including the above-mentioned vermin exterminating apparatus. Through installing this deinsectization device on the landscape lamp, can realize the kill of mosquito around the landscape lamp, increase the sight of landscape lamp, avoid receiving the interference of mosquito. Meanwhile, the application range of the pest killing device is also increased.
The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.
Claims (10)
1. The insect killing device comprises a shell (100), wherein an insect attracting device (200) for attracting mosquitoes to approach and an insect collecting device (300) for collecting the mosquitoes are arranged in the shell (100), and is characterized in that,
the insect attracting device is characterized in that a fan device (400) used for sucking mosquitoes attracted by the insect attracting device (200) downwards and sending the mosquitoes to the insect attracting device (300) downwards along the shell (100) is arranged between the insect attracting device (200) and the insect collecting device (300), and an insect attracting light source (500) is arranged on the fan device (400).
2. The vermin exterminating apparatus as claimed in claim 1, wherein,
the fan device (400) adopts a fan (401), the fan (401) is connected to the shell (100) through a connecting piece (402), and an airflow suction end of the fan (401) is arranged towards the insect attracting device (200).
3. The vermin exterminating apparatus as claimed in claim 2, wherein,
the insect attracting light source (500) is arranged on the fan (401) and/or the connecting piece (402).
4. The vermin exterminating apparatus as claimed in claim 2, wherein,
the fan device (400) further comprises an air guide pipe (403), and the air guide pipe (403) is arranged at the air flow output end of the fan (401) and is fixedly connected with the shell (100) and/or the connecting piece (402).
5. The vermin exterminating apparatus as claimed in claim 1, wherein,
an insect attracting branch pipe (800) is arranged between the fan device (400) and the insect collecting device (300).
6. The vermin exterminating apparatus as claimed in claim 5, wherein,
the periphery of the insect attracting device (200) is covered with a first impact body (600) which is used for protecting the insect attracting device (200) and forming impact force on mosquitoes attracted by the insect attracting device (200) and/or the insect attracting light source (500), and the first impact body (600) is connected to the shell (100) and/or the insect attracting device; and/or
The periphery cover of lure worm branch pipe (800) is equipped with and is used for right lure worm branch pipe (800) protect and right lure worm device (200), lure worm branch pipe (800) and/or the mosquito that lure worm light source (500) lure forms impact and/or supplementary second striking body (700) that lead to send, second striking body (700) connect on casing (100) lure on worm branch pipe (800) and/or on fan device (400).
7. The vermin exterminating apparatus as claimed in claim 6, wherein,
the first striker (600) and/or the second striker (700) are/is of transparent structure; and/or
A light diffuser for diffusing light is arranged on the first impact body (600) and/or the second impact body (700).
8. The vermin exterminating apparatus as claimed in claim 5, wherein,
the insect collecting device (300) comprises a guide plate (301) for guiding the air flow generated by the fan device (400) to the insect collecting device (300) for guiding the mosquitoes attracted by the insect attracting device (200), the insect attracting branch pipe (800) and/or the insect attracting light source (500) and an escape preventing device (302) for preventing the mosquitoes entering the insect collecting device (300) from escaping,
the guide plate (301) encloses and forms a pest collecting bin with a triangular vertical section and a large end opening facing the direction of the fan device (400), and the escape preventing device (302) is arranged at the bottom of the pest collecting bin and is movably connected with the guide plate (301).
9. The vermin exterminating apparatus as claimed in claim 1, wherein,
the upper side of the shell (100) is also provided with at least one of a heat dissipation device for cooling the insect attracting device (200), a power supply for supplying power and a shielding cover for shielding from the upper side.
10. A landscape lamp comprising the vermin exterminating apparatus of any one of claims 1 to 9.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321973108.XU CN220476695U (en) | 2023-07-25 | 2023-07-25 | Deinsectization device and landscape lamp |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321973108.XU CN220476695U (en) | 2023-07-25 | 2023-07-25 | Deinsectization device and landscape lamp |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220476695U true CN220476695U (en) | 2024-02-13 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321973108.XU Active CN220476695U (en) | 2023-07-25 | 2023-07-25 | Deinsectization device and landscape lamp |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220476695U (en) |
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2023
- 2023-07-25 CN CN202321973108.XU patent/CN220476695U/en active Active
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