CN211289875U - Outdoor lamp - Google Patents

Abstract

The utility model provides an outdoor lamp, including the lamp body, one side of lamp body is provided with the light zone and encircles the electric wire netting subassembly that the light zone set up, be provided with the white light lamp in the light zone, the electric wire netting subassembly include two mutual parallel arrangement and with the perpendicular electric shock net of arranging in light zone and be located two the purple light lamp between the electric shock net, purple light lamp and each the electric shock net is each other not contact, be provided with in the lamp body respectively with the white light lamp purple light lamp and each the control module of electric shock net electric connection. Because the electric wire netting subassembly encircles district settings such as illumination, can effectively kill the mosquito by light attraction, kill mosquito deinsectization effect is relatively better. Through setting up white light lamp and purple light lamp, usable white light attracts the winged insect and throw light on, utilizes the purple light to attract the mosquito, further improves kill mosquito deinsectization effect.

Description

Outdoor lamp

Technical Field

The utility model relates to a lamps and lanterns, especially an outdoor lamp.

Background

The outdoor lamp is a lamp used in outdoor places, such as street lamps, garden lamps and the like, the outdoor lamp can not avoid attracting the gathering of mosquitoes while providing the illumination function for pedestrians, in order to eliminate the attracted mosquitoes, a plurality of street lamps with the mosquito killing function appear on the market at present, for example, the street lamp for municipal administration disclosed in the Chinese utility model with the publication number of CN207005974U comprises a mosquito killing box, a distribution box, a street lamp supporting rod and a street lamp shell, one end of the top of the mosquito killing box is hinged with the upper end of a sealing cover through a rotating shaft, a storage barrel is fixedly arranged in the mosquito killing box, the top of the mosquito killing box is connected with one end of the street lamp shell through the street lamp supporting rod, one end of the lower part of the street lamp supporting rod is connected with the distribution box through a supporting frame, a mosquito killing chamber is arranged in the interior above the street lamp supporting rod, and is connected with the top of, the top of kill mosquito room is passed through the drive shaft and is articulated mutually with super-silent fan, and the one end fixed mounting at kill mosquito room middle part has spotlight to lead to the mosquito lamp, the bottom fixed mounting of kill mosquito room has the electric wire netting, and the below of electric wire netting is connected with the mosquito pipe that leads to through the guide plate. However, the mosquito killing device of the mosquito killing street lamp is separated from the street lamp, so that mosquitoes attracted by the lamp tube cannot be killed effectively, and the mosquito killing effect is relatively poor.

In addition, the white light lamp commonly used for street lamps can only attract flying insects generally, and has relatively low attraction effect on mosquitoes, which also results in relatively poor mosquito killing effect.

In view of the above, the applicant has made intensive studies to solve the above problems and has made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a kill mosquito outdoor lamp that deinsectization effect is better relatively.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an outdoor lamp, includes the lamp body, one side of lamp body is provided with the light zone and encircles the electric wire netting subassembly that the light zone set up, be provided with the white light lamp in the light zone, the electric wire netting subassembly include two mutual parallel arrangement and with the perpendicular electric shock net of arranging in light zone and be located two the purple light lamp between the electric shock net, purple light lamp and each the electric shock net is each other not contact, be provided with in the lamp body respectively with the white light lamp purple light lamp and each the control module of electric shock net electric connection.

As an improvement of the utility model, the lamp body is kept away from one side in illumination lamp district is provided with a solar cell panel, be provided with in the lamp body with the battery that a solar cell panel electricity is connected, the battery with the control module electricity is connected.

As an improvement of the utility model, the ultraviolet lamp is embedded on the lamp body.

As an improvement of the utility model, the electric shock net is C font or T font and encircles the lighting lamp district.

As an improvement of the utility model, two be provided with the silica gel strip between the electric shock net, the silica gel strip is located the periphery of electric shock net.

As an improvement of the utility model, the lamp body has one side in illumination lamp district be provided with control module communication connection's first camera, first camera is located the illumination lamp district is kept away from one side of electric wire netting subassembly.

As an improvement of the utility model, the human body induction module is further included and connected with the control module.

As an improvement of the utility model, go back the auxiliary casing of fixedly connected with on the lamp body, the auxiliary casing deviates from one side in lighting lamp district be provided with the second solar cell panel that the battery electricity is connected, second solar cell panel with contained angle that forms between the first solar cell panel is the obtuse angle.

As an improvement of the utility model, the subshell is located the electric wire netting subassembly deviates from one side in lighting lamp district, just the subshell deviates from one side of second solar cell panel be provided with control module communication connection's second camera.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

1. because the electric wire netting subassembly encircles district settings such as illumination, can effectively kill the mosquito by light attraction, kill mosquito deinsectization effect is relatively better.

2. Through setting up white light lamp and purple light lamp, usable white light attracts the winged insect and throw light on, utilizes the purple light to attract the mosquito, further improves kill mosquito deinsectization effect.

3. By controlling the temperature of the lamp, the mosquito collecting lamp is helpful to gather mosquitoes and improve the mosquito killing efficiency.

4. Through carrying out discontinuous circular telegram to the electric shock net, help saving the electric quantity, improve kill mosquito deinsectization efficiency simultaneously.

Drawings

FIG. 1 is a schematic view of an outdoor lamp according to a first embodiment of the present invention;

FIG. 2 is a schematic view of another perspective of the outdoor lamp according to the first embodiment;

FIG. 3 is a schematic structural diagram of an outdoor lamp according to a second embodiment of the present invention;

fig. 4 is a schematic structural view of another viewing angle of the outdoor lamp in the second embodiment.

The corresponding designations in the figures are as follows:

10-a lamp housing; 11-white light lamp;

12-sinking a tank; 13-a separator;

20-a grid component; 21-electric shock net;

22-ultraviolet lamp; 23-a silica gel strip;

30-a lighting lamp zone; 40-a first solar panel;

50-a first camera; 60-subshells;

61-a second solar panel; 62-second camera.

Detailed Description

The utility model is further explained by the following specific embodiments:

the first embodiment.

As shown in fig. 1 to 2, the present embodiment provides an outdoor lamp that can be used as a street lamp, a garden lamp or a garden lamp, the outdoor lamp comprises a lamp shell 10, one side of the lamp shell 10 is provided with a lighting lamp area 30 and an electric network component 20 arranged around the lighting lamp area 30, wherein, the lighting lamp area 30 is provided with a white light lamp 11, specifically, the lighting lamp area 30 is a square plane area on the side surface of the lamp housing 10, the lamp housing 10 is provided with a plurality of sinking grooves 12 which are arranged in parallel and have trapezoidal sections within the plane area, each sinking groove 12 is provided with a plurality of partition boards 13 which are arranged perpendicular to the sinking grooves 12, these partitions 13 divide each sink 12 into a plurality of lamp chambers, and the white light lamps 11 are plural and are respectively installed in the lamp chambers one by one, and the white light lamps 11 are preferably LED white light lamps which are mainly used for illumination and have the function of attracting flying insects.

The power grid assembly 20 includes two lightning grids 21 arranged in parallel with each other and perpendicular to the lighting lamp zone 11, and an ultraviolet lamp 22 located between the two lightning grids 21, it should be noted that the perpendicular arrangement here does not require that the two grids are absolutely perpendicular, and allows a large perpendicularity error between the two grids, and when the perpendicularity error is particularly large, an acute angle or an obtuse angle is formed between the two grids; secondly, the two electric shock nets 21 are parallel to each other and do not mean that the two electric shock nets 21 are arranged in a plane, when the electric shock nets have a plurality of sections of planes, the sections of planes are arranged in parallel in a one-to-one correspondence manner, and the distance between the two electric shock nets 21 is preferably 6 mm; in addition, the electric shock net 21 may be an electric shock net or a high-voltage electric net used in a conventional electric mosquito swatter, which is not the focus of the embodiment and will not be described in detail herein. Preferably, in the present embodiment, each electric shock net 21 surrounds the lighting lamp area 30 in a C-shape or a T-shape, that is, the electric shock net 21 does not surround the lighting lamp area 30 for one turn, and only surrounds the lighting lamp area 30 for half, a silicon strip 23 is disposed between the two electric shock nets 21, and the silicon strip 23 is located on the periphery of the electric shock net 21, and together with the lamp housing 10, surrounds the two electric shock nets 21 to support the two electric shock nets 21.

Ultraviolet lamp 22 and each electric shock net 21 are not contact with each other, and is concrete, ultraviolet lamp 22 is the LED ultraviolet lamp, and it inlays and establishes on lamp body 10, and only a small part of lamp holder exposes the surface of lamp body 10, and the chip of LED ultraviolet lamp can not expose the surface of lamp body 10 to avoid being punctured by electric shock net 21.

A control module (not shown in the figure) electrically connected with the white light lamp 11, the purple light lamp 22 and each electric shock net 21 is arranged in the lamp housing 10, so that the working time sequence of each electric shock net 21 and each other is controlled by the control module, the control module can be a conventional module, such as a singlechip or a PLC control module with timing function, can be purchased directly from the market, of course, the control module is also required to be connected with a power supply for supplying power to the control module, the power supply can be an external power supply, such as commercial power, and the like, or a built-in power supply, such as a battery and the like, preferably, in this embodiment, a first solar cell panel 40 is disposed on a side of the lamp housing 10 away from the lighting lamp area 30, and a storage battery (not shown) electrically connected to the first solar cell panel 40 is disposed in the lamp housing 10, and the storage battery is electrically connected to the control module, so as to supply power to electrical components such as the control module. Of course, the connection between each electric shock net 21 and the control module needs to be performed through a high voltage discharging device, so as to provide high voltage electricity for the electric shock net 21, and the high voltage discharging device is the same as that used in the conventional electric mosquito swatter, and will not be described in detail herein.

In addition, in this embodiment, the side of the lamp housing 10 having the lighting lamp area 30 is further provided with a first camera 50 in communication connection with the control module, and the first camera 50 is located at the side of the lighting lamp area 30 away from the power grid assembly 30, so as to prevent the power grid assembly 20 from entering the view of the first camera 50 and blocking it. The first camera 50 may be a conventional surveillance first camera and will not be described in detail herein.

The outdoor lamp that this embodiment provided still includes the human response module (not shown in the figure) with control module communication connection, and the human response module is conventional module too, for example can purchase the infrared pyroelectric sensor who obtains directly from the market, and it can be used to the living body of sensing the should body temperature. Human response module can set up on lamp body 10, also can be independent of lamp body 10 and confirm it according to actual need when using and arrange the position, and human response module can realize the communication with control module through the wire and be connected, also can realize the communication based on wireless network, wifi or bluetooth and connect, when it and control module wireless connection, still need be for the independent power of its counter weight.

When the ultraviolet lamp is used, after the control module judges that the lamp is dark, the white light lamp 11 is turned on and turned off after the turning-on time of the white light lamp 11 reaches a first preset time, and the ultraviolet lamp 22 is turned on simultaneously or the ultraviolet lamp 22 is turned on after the white light lamp 11 is turned off, namely, the ultraviolet lamp 22 can be turned on simultaneously with the white light lamp 11 and can also be turned on after the white light lamp 11 is turned off. The control module may determine the darkness in various ways, for example, it is preset in the control module that the darkness is 6 pm or 7 pm later, or it is determined whether the darkness is present according to whether the first solar panel is charging the storage battery and the time length of stopping charging, etc., which are conventional determination ways, are not important in this embodiment, and are not described in detail here. In addition, the first preset duration can be set according to actual needs, for example, 4 hours, that is, the white light lamp 11 is turned on after dark, and the white light lamp 11 is turned off after four hours, which is helpful for saving energy consumption.

When the white light lamp 11 is turned off, the ultraviolet light lamp 22 is turned on, and the human body sensing module detects that a living body enters the sensing area, the control module turns on the white light lamp 11 and turns off the white light lamp after the turning-on time reaches a second preset time, similarly, the second preset time also needs to be set according to actual needs, for example, one minute, namely, after dark, if the white light lamp 11 is turned off after being turned on for 4 hours, at this time, a person enters the sensing area of the human body sensing module, the white light lamp 11 is turned on again so as to illuminate passersby, and is turned off after the passersby leaves one minute.

In addition, when the white light lamp 11 and/or the ultraviolet light lamp 22 are turned on, the control module can ensure that the temperature of the lamp is 30-37.5 ℃ by controlling the current of the circuit where the LED lamp is located, and mosquitoes are more easily attracted at the temperature and are not easy to fly away after being attracted. As long as any one of the white light lamp 11 and the purple light lamp 22 is turned on, the two electric shock nets 21 are electrified to kill attracted mosquitoes. Preferably, after the control module determines that the darkness rises and reaches a third preset time, the two electric shock nets 21 are simultaneously intermittently electrified, the third preset time, the interval time of intermittent electrification and the electrifying time can be set according to actual needs, for example, the third preset time is 10 minutes, the interval time of intermittent electrification is one minute, and the electrifying time is 10 seconds, that is, after the darkness rises and the white light lamp 11 is turned on for 10 minutes, the two electric shock nets 21 output 10 seconds of high voltage electricity per minute, so that more mosquitoes and insects stay on the electric shock nets 21 every time the electric shock nets output the high voltage electricity, and the mosquito killing efficiency is improved while the power consumption is reduced.

Example two.

As shown in fig. 3 and 4, the outdoor lamp provided in this embodiment is different from the first embodiment in that in this embodiment, a sub-housing 60 is further fixedly connected to the lamp housing 10, the sub-housing 60 is located on a side of the power grid assembly 20 away from the lighting lamp area 30, and a second solar cell panel 61 electrically connected to the storage battery is disposed on a side of the sub-housing 60 away from the lighting lamp area 30, that is, both the first solar cell panel 40 and the second solar cell panel 61 are located on a side away from the lighting lamp area 30. An included angle is formed between the second solar cell panel 61 and the first solar cell panel 40, and the included angle is an obtuse angle, which is helpful for improving the solar charging duration.

In addition, a second camera 62 in communication connection with the control module is arranged on a side of the sub-housing 60 facing away from the second solar cell panel 61. It should be noted that, in this embodiment, the first camera 50 may be retained or removed.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, and these all belong to the protection scope of the present invention.

Claims (9)

1. The utility model provides an outdoor lamp, includes the lamp body, its characterized in that, one side of lamp body is provided with the light zone and encircles the electric wire netting subassembly that the light zone set up, be provided with the white light lamp in the light zone, the electric wire netting subassembly include two mutual parallel arrangement and with the perpendicular electric shock net of arranging in light zone and be located two purple light lamp between the electric shock net, purple light lamp and each the electric shock net is each other not contact, be provided with in the lamp body respectively with the white light lamp purple light lamp and each control module that electric shock net electric connection.

2. The outdoor lamp according to claim 1, wherein a first solar cell panel is arranged on one side of the lamp housing away from the lighting lamp area, a storage battery electrically connected with the first solar cell panel is arranged in the lamp housing, and the storage battery is electrically connected with the control module.

3. The outdoor lamp according to claim 1, wherein said ultraviolet lamp is embedded in said lamp housing.

4. The outdoor lamp according to claim 1, wherein said electric shock net surrounds said lighting lamp section in a C-shape or a T-shape.

5. The outdoor lamp according to claim 1, wherein a silicone strip is provided between two said electric shock nets, said silicone strip being located at the periphery of said electric shock nets.

6. The outdoor lamp according to claim 1, wherein a first camera communicatively connected to said control module is provided on a side of said lamp housing having said lighting lamp area, said first camera being located on a side of said lighting lamp area remote from said power grid assembly.

7. An outdoor lamp according to any one of claims 1-6, characterized in that it further comprises a human body induction module communicatively connected to said control module.

8. The outdoor lamp according to claim 2, wherein a sub-housing is further fixedly connected to the lamp housing, a second solar cell panel electrically connected to the storage battery is disposed on a side of the sub-housing facing away from the lighting lamp area, and an included angle formed between the second solar cell panel and the first solar cell panel is an obtuse angle.

9. The outdoor lamp according to claim 8, wherein said sub-housing is located on a side of said power grid assembly facing away from said lighting lamp zone, and a side of said sub-housing facing away from said second solar cell panel is provided with a second camera communicatively connected to said control module.

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