CN215123540U - Indoor mosquito killer lamp with light-transmitting upper end or lower end - Google Patents

Abstract

The utility model discloses an indoor mosquito killer lamp with a light-transmitting upper end or lower end; belongs to the technical field of electronic mosquito killing lamps; the mosquito killer is technically characterized by comprising a shell, wherein an opening is formed in the upper end and/or the lower end of the shell, a power grid assembly for killing mosquitoes is arranged at the opening, a light source matched with the power grid assembly and used for attracting mosquitoes is arranged in the shell, a shielding structure is formed on the side edge of the light source, and mosquito attracting light generated by the light source can only penetrate out of the shell from the opening in the shell; a main control board is arranged in the shell and is respectively connected with the power grid assembly and the light source circuit; the utility model aims to provide an indoor mosquito killer lamp with a light-transmitting upper end or lower end, which has compact structure, convenient use and good effect; it can be used for killing mosquito.

Description

Indoor mosquito killer lamp with light-transmitting upper end or lower end

Technical Field

The utility model relates to a mosquito killer lamp, more specifically say, especially relate to a non-light tight indoor mosquito killer lamp of upper end or lower extreme.

Background

The electronic mosquito killing lamp is a device which can kill mosquitoes through a high-voltage electric net after releasing light beam with specific wavelength to catalyze carbon dioxide to lure mosquitoes according to phototaxis and sensitivity to special wavelength of the mosquitoes. It does not need to release toxic and harmful substances, and has no pollution to the environment. Are becoming more and more appreciated by consumers.

The existing electronic mosquito killer lamp is generally in an open structure, a light source is exposed, light beams are scattered all around, and the electronic mosquito killer lamp has the advantage of wide light irradiation range and is beneficial to improving the mosquito trapping efficiency. However, because the light source commonly used by the electronic mosquito killer lamp is an LED ultraviolet lamp, when the electronic mosquito killer lamp is used at home, users, especially children, are easy to directly see the light source due to the fact that the light source is exposed, and strong light generated by the LED has certain harm to eyes of people, especially children. Therefore, there is a need to develop an electronic mosquito killer lamp which can effectively hide the light source, avoid the direct vision of human eyes and can also attract mosquitoes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a compact structure, convenient to use and effectual upper end or the non-light tight indoor mosquito killer lamp of lower extreme to the not enough of above-mentioned prior art.

The technical scheme of the utility model is realized like this: an indoor mosquito killer lamp with a light-transmitting upper end or lower end comprises a shell, wherein an opening is formed in the upper end and/or lower end of the shell, a power grid assembly used for killing mosquitoes is arranged at the opening, a light source matched with the power grid assembly and used for attracting mosquitoes is arranged in the shell, a shielding structure is formed on the side edge of the light source, and mosquito attracting light generated by the light source can only penetrate out of the opening in the shell to the outer side of the shell; the shell is internally provided with a main control board which is respectively connected with the power grid assembly and the light source circuit.

In the indoor mosquito killer lamp with the light-transmitting upper end or lower end, an opening is formed at the upper end of the shell, and the light source is positioned in the shell below the power grid assembly.

In the above-mentioned indoor mosquito killer lamp with a light-transmitting upper end or lower end, the shielding structure is a side wall of the shell.

In the indoor mosquito killer lamp with the upper end or the lower end being light-transmitting, a transparent protective cover is arranged in the shell between the light source and the power grid assembly, and the transparent protective cover is arranged on the periphery of the light source.

In the indoor mosquito killer lamp with the upper end or the lower end being light-transmitting, the hanging lugs are arranged on the shell, when the shell is in a hanging state, the shell is inverted, and the light source penetrates out of the outer side of the shell downwards.

In the indoor mosquito killer lamp with the upper end or the lower end being light-transmitting, the shell is composed of the containing grids which can be detached and connected by hands and the mounting rack; accomodate the check and be used for accomodating by the dead mosquito of electricity, light source and main control board set up on the mounting bracket.

In the indoor mosquito killer lamp of foretell upper end or lower extreme printing opacity, the check of accomodating is unilateral open structure, and it has a plurality of buckles to have a circumference interval distribution at check of accomodating opening edge.

The mounting frame consists of a connecting sleeve, a mounting ring arranged in the connecting sleeve and a connecting strip which is used for connecting the connecting sleeve and the mounting ring and is matched with the buckle; accomodate check and mounting bracket and pass through the cooperation of buckle and connecting strip and can bare-handed dismantlement connection.

In foretell upper end or lower extreme non-light tight indoor mosquito killer lamp, the buckle is the U-shaped structure that the level was placed, the buckle is formed by integrated into one piece just being the L-shaped spare that the level was placed and accomodating check opening terminal surface cooperation at accomodating check opening terminal surface.

In the indoor mosquito killer lamp with the light-transmitting upper end or lower end, the power grid assembly consists of three layers of insulating supports, a first power grid and a second power grid which are clamped between two adjacent layers of insulating supports and matched with each other; first electric wire netting and second electric wire netting are by supreme setting gradually down and are connected with kill mosquito output circuit positive pole and negative pole on the main control board respectively.

In the above-mentioned indoor mosquito killer lamp with a light-transmitting upper end or lower end, the aperture of the second power grid is larger than that of the first power grid.

The utility model adopts the above structure after, through setting up the opening on casing upper end or lower extreme to at opening part installation electric wire netting subassembly, set up the light source that can only see light out from the opening part in the casing simultaneously, make the mosquito killer lamp when using, the user can only be when nearer from the mosquito killer lamp, just can see inside light source, has reduced the probability that people's eye looked directly at the light source, effectively guarantees user's eyes safety.

Drawings

The present invention will be described in further detail with reference to the following examples, which are not intended to limit the invention.

Fig. 1 is a schematic exploded view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic view of the assembly structure inside the casing of the present invention;

fig. 4 is a schematic view of the state of the utility model during hoisting.

In the figure: 1. a housing; 1a, containing grids; 1b, a mounting rack; 1c, connecting sleeves; 1d, mounting a ring; 1e, connecting strips; 2. a power grid component; 2a, an insulating support; 2b, a first power grid; 2c, a second power grid; 3. a light source; 4. a main control board; 5. a transparent protective cover; 6. hanging a lug; 7. buckling; 7a, an L-shaped piece.

Detailed Description

Referring to fig. 1 to 4, the indoor mosquito killer lamp with a light-transmitting upper end or lower end of the utility model comprises a shell 1, an opening is formed at the upper end and/or lower end of the shell 1, an electric network component 2 for killing mosquitoes is arranged at the opening, a light source 3 matched with the electric network component 2 and used for attracting mosquitoes is arranged in the shell 1, a shielding structure is formed at the side edge of the light source 3, and mosquito attracting light generated by the light source 3 can only penetrate out of the shell 1 from the opening on the shell 1; a main control board 4 is arranged in the shell 1, and the main control board 4 is respectively connected with the power grid assembly 2 and the light source 3 through circuits.

The power supply mode of the main control board and the power grid assembly is not limited in the application, and the power supply mode can adopt a mode of a built-in battery or a mode of directly externally connecting commercial power, which are conventional structures in the field. In this embodiment, the casing lateral wall is provided with power supply interface, and the main control board adopts the mode of outside power supply.

In the present embodiment, the housing 1 is formed with an opening at the upper end, and the light source 3 is located in the housing 1 below the power grid assembly 2. In this structure, the main chamber is placed in the chamber so that the light is emitted upward.

Of course, in order to expand the use mode of the light source device, the hanging lug 6 is arranged on the shell 1, when the shell 1 is in a hanging state, the shell 1 is inverted, and the light source 3 downwards penetrates out of the outer side of the shell 1. This is another way of use and does not fall within the scope of the opening provided at the lower end of the housing, but the effect is the same. Of course, as a person skilled in the art can easily design the technical solution of opening the lower end or opening both the upper and lower ends and installing the grid assembly after understanding the above technical solution disclosed in the art, and does not need to go through creative labor.

Further preferably, the shielding structure is a side wall of the housing 1. The purpose of the shielding structure is to prevent light from passing through the periphery of the shell. To improve the decorative effect, one skilled in the art can also design the side walls of the housing to have a hollowed out pattern shape while providing shielding structures inside, which is an equivalent alternative that one skilled in the art can easily imagine, without considering the cost and the simplicity of assembly.

In the present embodiment, a transparent protective cover 5 is arranged in the housing 1 between the light source 3 and the power grid assembly 2, and the transparent protective cover 5 is arranged at the periphery of the light source 3. The transparent protective cover is hemispherical, and mainly has the function of preventing mosquitoes killed by electricity from falling on the light source and shielding the light source to further influence the mosquito trapping effect. Meanwhile, in order to facilitate cleaning, the hemispherical transparent protective cover has a guiding function, so that mosquitoes falling on the protective cover can slide to the bottom in the shell along the smooth surface.

Further preferably, for convenient cleaning, the housing 1 is composed of a containing grid 1a and a mounting rack 1b which can be detached and connected by bare hands; accomodate check 1a and be used for accomodating by the dead mosquito of electricity, light source 3 and main control board 4 set up on mounting bracket 1 b.

In this embodiment, accomodate check and mounting bracket and adopt the knot structure of turning round, specifically, accomodate check 1a and be unilateral open structure, there are a plurality of buckles 7 at accomodate check 1a opening edge along circumference interval distribution.

The mounting frame 1b is composed of a connecting sleeve 1c, a mounting ring 1d arranged in the connecting sleeve 1c, and a connecting strip 1e which is used for connecting the connecting sleeve 1c and the mounting ring 1d and is matched with the buckle 7.

The containing grids 1a and the mounting rack 1b are matched with each other through the buckles 7 and the connecting strips 1e and can be detached and connected by hands.

Of course, other ways of manually detachably connecting the storage compartment and the mounting rack, such as plugging, screwing, etc., may be used in the art. This is also an equivalent alternative that is easily imaginable to the person skilled in the art.

Further preferably, for convenience of assembly, the buckle 7 is of a horizontally placed U-shaped structure, and the buckle 7 is formed by integrally molding an L-shaped piece 7a horizontally placed on an end surface of an opening portion of the storage compartment 1a and matching the L-shaped piece with the end surface of the opening portion of the storage compartment 1 a. Simultaneously, the external diameter of accomodating the check suits with the internal diameter of mounting bracket, and when the assembly, when accomodating check upper end edge contacted the connecting strip, the bayonet socket of buckle just corresponding with the connecting strip, rotatory accomodating the check this moment can accomplish with the assembly of mounting bracket, and it is very convenient to operate.

In this embodiment, the power grid assembly 2 is composed of three layers of insulating supports 2a, and a first power grid 2b and a second power grid 2c which are clamped between two adjacent layers of insulating supports 2a and are matched with each other; first electric wire netting 2b and second electric wire netting 2c set up according to the preface by supreme down and are connected with kill mosquito output circuit positive pole and negative pole on the main control board 4 respectively. The insulating support not only realizes the isolation of two layers of power grids, but also plays a role in protection, and avoids the safety threat to users caused by large-area exposure of the power grids. In order to achieve the protection purpose, the hollow holes on the insulating support are not too large, in the embodiment, the hollow holes are formed by a plurality of concentrically arranged ring bodies which are distributed at intervals and radial connecting pieces which are connected with the ring bodies, a plurality of strip gaps are formed between the ring bodies and the connecting pieces, and the width of each strip gap is preferably not more than 1 cm.

Preferably, the aperture of the second electrical network 2c is larger than the aperture of the first electrical network 2 b. So the mosquitoes and insects can pass through the second power grid to contact the first power grid, the conduction of the first power grid and the second power grid is completed, and the mosquitoes and insects are electrocuted.

When the power supply circuit is used, the power supply circuit is connected with the interface on the shell, and the open end of the shell is placed indoors upwards. The mosquito that is died by the electricity stays on the electric wire netting subassembly or falls into and accomodates the check, and the mosquito that falls on transparent protection casing also can finally fall into accomodate the check under the direction of transparent protection casing.

The above embodiment is the preferred embodiment of the present invention, which is only used to facilitate the explanation of the present invention, it is not right to the present invention, which makes the restriction on any form, and any person who knows commonly in the technical field can use the present invention to make the equivalent embodiment of local change or modification without departing from the technical features of the present invention.

Claims (10)

1. An indoor mosquito killer lamp with a light-transmitting upper end or lower end comprises a shell (1) and is characterized in that an opening is formed in the upper end and/or lower end of the shell (1), a power grid assembly (2) used for killing mosquitoes is arranged at the opening, a light source (3) which is matched with the power grid assembly (2) and used for attracting mosquitoes is arranged in the shell (1), a shielding structure is formed on the side edge of the light source (3), and mosquito attracting light rays generated by the light source (3) can only penetrate out of the shell (1) from the opening in the shell (1); a main control board (4) is arranged in the shell (1), and the main control board (4) is respectively in circuit connection with the power grid assembly (2) and the light source (3).

2. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 1, wherein the upper end of the housing (1) is formed with an opening, and the light source (3) is positioned in the housing (1) below the power grid assembly (2).

3. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 1 or 2, characterized in that the shielding structure is the side wall of the case (1).

4. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 2, characterized in that a transparent protective cover (5) is arranged in the shell (1) between the light source (3) and the power grid component (2), and the transparent protective cover (5) is arranged at the periphery of the light source (3).

5. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 2, characterized in that said casing (1) is provided with a hanging ear (6), when the casing (1) is in suspension state, the casing (1) is inverted, and the light source (3) is downward and is out of the outside of the casing (1).

6. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 1 or 2, characterized in that the housing (1) is composed of a receiving grid (1a) and a mounting rack (1b) which can be detached and connected by bare hands; accomodate check (1a) and be used for accomodating by the dead mosquito of electricity, light source (3) and main control board (4) set up on mounting bracket (1 b).

7. An indoor mosquito killer lamp with a light-transmitting upper end or lower end as claimed in claim 6, wherein the containing lattice (1a) is of a single-side open structure, and a plurality of buckles (7) are distributed at intervals along the circumferential direction on the edge of the opening part of the containing lattice (1 a);

the mounting frame (1b) consists of a connecting sleeve (1c), a mounting ring (1d) arranged in the connecting sleeve (1c) and a connecting strip (1e) which is used for connecting the connecting sleeve (1c) and the mounting ring (1d) and is matched with the buckle (7);

accomodate check (1a) and mounting bracket (1b) and pass through buckle (7) and connecting strip (1e) cooperation and can bare-handed dismantlement connect.

8. An indoor mosquito killer lamp with light-transmitting upper end or lower end as claimed in claim 7, wherein said buckle (7) is of a horizontally placed U-shaped structure, said buckle (7) is formed by integrally forming an L-shaped piece (7a) which is horizontally placed on the end surface of the opening of the containing grid (1a) and matching with the end surface of the opening of the containing grid (1 a).

9. An indoor mosquito killer lamp with a light-transmitting upper end or lower end as claimed in claim 1, wherein the power grid assembly (2) is composed of three layers of insulating supports (2a) and a first power grid (2b) and a second power grid (2c) which are clamped between two adjacent layers of insulating supports (2a) and are matched with each other; first electric wire netting (2b) and second electric wire netting (2c) set up according to the preface and are connected with kill mosquito output circuit positive pole and negative pole on main control board (4) respectively by lower supreme.

10. An indoor mosquito killer lamp as claimed in claim 9, wherein the aperture of the second electric network (2c) is larger than that of the first electric network (2 b).

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