CN212139037U

CN212139037U - Solar automatic insect killer

Info

Publication number: CN212139037U
Application number: CN202020740985.2U
Authority: CN
Inventors: 田沛; 张开生
Original assignee: Xian Peihua University
Current assignee: Xian Peihua University
Priority date: 2020-05-08
Filing date: 2020-05-08
Publication date: 2020-12-15
Anticipated expiration: 2030-05-08

Abstract

The utility model relates to a deinsectization technical field, concretely relates to automatic deinsectization ware of solar energy. The specific technical scheme is as follows: the utility model provides an automatic insect killer of solar energy, includes the base, fixes the cavity lighting fixture on the base, fixes solar energy component, the horizontal pole of setting on the upper portion of cavity lighting fixture and the moth-killing lamp of setting at the horizontal pole other end on cavity lighting fixture top, the moth-killing lamp includes the top cap, the bottom of top cap is fixed with a plurality of bracing piece, the other end of bracing piece is fixed with the insecticidal subassembly, the center department of top cap is equipped with and runs through the conduit of top cap, the lower part of conduit is from last to being fixed with first fixed plate and second fixed plate down in proper order, be equipped with two coilers on the first fixed plate. The utility model discloses can be regardless of the size of insect volume, can kill the insect that has phototaxis and negative phototaxis, realize the purpose of the automatic insecticidal of full day, and can avoid weather to the influence of insect killer, the insecticidal is effectual.

Description

Solar automatic insect killer

Technical Field

The utility model relates to a deinsectization technical field, concretely relates to automatic deinsectization ware of solar energy.

Background

The insect-killing lamp is a lamp for attracting and killing phototaxis insects at night. At present, most of the deinsectization lamps installed outdoors utilize solar energy to supply power to purple LED lamps so as to attract insects to approach, and then utilize water or a high-voltage power grid to kill the insects.

Like the bugZapper that utilizes high voltage electric network to come the insecticidal, attract the insect to being close to high voltage electric network, come the electricity through high voltage electric network and die the insect in order to reach the insecticidal purpose, but because the size of insect is different, some less insect of individual head need not to contact the electric network and just can pass, then attach on the fluorescent tube, if the quantity of attaching is too many, will influence the induction effect of fluorescent tube to influence the effect of deinsectization. Moreover, if the insect killing lamp encounters severe weather conditions such as rain, snow or storm, impurities such as rainwater or leaves can be blown into the insect killing lamp or adsorbed on the high-voltage power grid, so that the high-voltage power grid is short-circuited, and the insect killing effect is not ideal. In addition, the insect killing lamp can only kill some insects with phototaxis, and some insects with positive phototaxis cannot be killed, so that the types of the killed insects are few, and the insects cannot be killed comprehensively.

For example, the invention patent with the Chinese patent application number of 201611201333.6 discloses a solar insect killing device, and specifically discloses that water in a water containing tray is heated and heated by an electric heating wire, a water pump pumps the water to a horizontal platform, hot water falls into the water containing tray again along the periphery of the horizontal platform to form a water curtain, and the water circulates between the water containing tray and the horizontal platform, so that the device can work all the time without adding water all the time. When the pests are attracted to the pest killing device by the light source, the wings are scalded by hot water and fall into the water containing disc through the water curtain, and the pests are soaked in the hot water in the water containing disc and die in the near future. However, when the device is used for killing insects, the corpses of the insects fall into the water containing disc, and the corpses of the insects are pumped to the horizontal platform by the water pump when the water is pumped by the water pump, so that the using environment of the insect killing device is influenced; and if too many corpses of the pests can block the water pump, the water pump is damaged, the pest killing device cannot be used, and the pest killing purpose cannot be achieved.

Disclosure of Invention

The utility model provides a not enough to prior art, the utility model provides an automatic insect killer of solar energy can be regardless of the size of insect volume, can kill the insect that has phototaxis and negative phototaxis, realizes the purpose of the automatic insecticidal of full day, and can avoid weather to the influence of insect killer, and the insecticidal is effectual.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

the utility model provides a solar automatic insect killer, which comprises a base, a hollow lamp bracket fixed on the base, a solar component fixed at the top end of the hollow lamp bracket, a cross rod arranged at the upper part of the hollow lamp bracket and an insect trapping lamp arranged at the other end of the cross rod, wherein a control box is arranged on the side wall of the hollow lamp bracket, and a controller and a storage battery are arranged in the control box;

the trap lamp comprises a top cover, a plurality of supporting rods are fixed at the bottom of the top cover, an insect killing assembly is fixed at the other end of each supporting rod, a conduit penetrating through the top cover is arranged at the center of the top cover, a first fixing plate and a second fixing plate are sequentially fixed at the lower part of the conduit from top to bottom, and two reels are arranged on the first fixing plate;

the circumference on insecticidal subassembly upper portion upwards is fixed with the downward excellent arc recess of round opening, be equipped with the protection casing in the excellent arc recess, the top symmetric connection of protection casing has the string, the string is worn out by protection casing bottom to top, two the string passes the top of excellent arc recess respectively through the wire wheel with the winder is connected, the winder respectively with the controller is connected.

Preferably, the insecticidal assembly comprises a high-voltage grid and a high-voltage power grid sleeved in the high-voltage grid, wherein the upper end of the high-voltage power grid is arranged in the first upper connecting ring, and the lower end of the high-voltage power grid is arranged in the first lower connecting ring; the upper end of the high-voltage grid is arranged in the second upper connecting ring, the lower end of the high-voltage grid is arranged in the second lower connecting ring, and the first upper connecting ring and the first lower connecting ring are respectively clamped with the second upper connecting ring and the second lower connecting ring.

Preferably, the second fixing plate is arranged at the bottom of the conduit, the conduit penetrates through the second fixing plate, a lamp holder is arranged at the bottom of the second fixing plate and right below the conduit, a lamp tube is arranged on the lamp holder, a lampshade is sleeved on the lamp tube, and the lampshade is fixed at the bottom of the second fixing plate.

Preferably, the major arc groove is provided on an outer side wall of the second upper connection ring.

Preferably, the lamp tube is arranged inside the high-voltage power grid.

Preferably, a collecting tray is fixed on the outer side wall of the second lower connecting ring through a fixing strip, the bottom of the collecting tray is open, a collecting cavity is fixed at the bottom of the collecting tray, and a plurality of hanging lugs are arranged on the outer side wall of the collecting cavity.

Preferably, the inner wall of the first lower connecting ring is clamped with a material containing disc, and the material containing disc is provided with a plurality of grooves.

Preferably, the cross rod is of a hollow structure and is communicated with the hollow lamp holder.

Preferably, the crossbar is provided with a speedometer and a rain sensor.

The utility model discloses possess following beneficial effect:

1. the utility model is provided with the conduit which penetrates through the top cover at the center of the top cover, the lower part of the conduit is sequentially fixed with the first fixing plate and the second fixing plate from top to bottom, and the first fixing plate is provided with two coil winders; and be fixed with the downward excellent arc recess of round opening in the circumference of go-between on the second, be equipped with the protection casing in the excellent arc recess, the bottom symmetric connection of protection casing has the string, and the string is worn out by protection casing bottom to top, and two strings pass the top of excellent arc recess and are connected with the winder through the wire wheel respectively to realized the protection to the lure lamp under bad weather, avoided the damage of rainwater or the impurity that the strong wind blown to the lure lamp.

2. The utility model discloses a high-voltage grid and the high-voltage electric network in mutual joint and different apertures have realized killing of bulky insect and little bulky insect, and set up the containing tray in the inside of high-voltage electric network, hold different kinds of attractant in the recess on the containing tray to the realization is killed to the insect of negative phototaxis, has reached the purpose of the automatic insecticidal of whole day, high-voltage grid, high-voltage electric network and containing tray simple to operate moreover, and application range is wide.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the insect attracting lamp of the present invention;

fig. 3 is a schematic view of a connection structure between a second upper connection ring and a high-voltage grid according to the present invention;

in the figure: the solar energy insect trap lamp comprises a base 1, a hollow lamp bracket 2, a solar energy component 3, a cross rod 4, an insect-attracting lamp 5, a top cover 6, a support rod 7, a conduit 8, a first fixing plate 9, a second fixing plate 10, a reel 11, a major arc-shaped groove 12, a protective cover 13, a string 14, a conduit wheel 15, a high-voltage grid 16, a high-voltage grid 17, a first upper connecting ring 18, a first lower connecting ring 19, a second upper connecting ring 20, a second lower connecting ring 21, a lamp holder 22, a lamp tube 23, a lampshade 24, a fixing strip 25, a collecting disc 26, a collecting cavity 27, a hanging lug 28, a material containing disc 29, a groove 30, an anemometer 31, a rainfall sensor 32, a control box 33, a connecting strip 34, a collecting bag 35, an annular groove 36, a conduit 37.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model discloses an automatic insect killer of solar energy, including base 1, fix cavity lighting fixture 2 on base 1, fix the solar energy component 3 on cavity lighting fixture 2 top, the horizontal pole 4 that sets up on the upper portion of cavity lighting fixture 2 and the moth-killing lamp 5 of setting at the horizontal pole 4 other end, cavity lighting fixture 2 can be preferably from locking-type telescopic link, can be according to specific service environment automatically regulated height, and can make it pin when suitable height, no longer reciprocate, wherein, fix on base 1 from the fixed section of thick bamboo of locking-type telescopic link, and fixed horizontal pole 4 on the lateral wall of a movable section of thick bamboo. The base 1, the hollow lamp holder 2 and the cross bar 4 form a lamp holder for fixing/hanging the trap lamp 5.

The cross rod 4 is of a hollow structure and is communicated with the hollow lamp holder 2, so that wiring is facilitated between the hollow lamp holder 2 and the cross rod 4. The side wall of the hollow lamp holder 2 is provided with a control box 33, the control box 33 is arranged below the solar component 3, and the solar component 3 can play a role of preventing rain for the control box 33; be equipped with controller and battery in the control box 33, battery and solar cell panel electric connection, controller and battery electric connection. An anemometer 31 and a rain sensor 32 are arranged on the cross rod 4, and the anemometer 31 and the rain sensor 32 are respectively electrically connected with the controller.

Trap lamp 5 includes top cap 6, and the bottom of top cap 6 is fixed with a plurality of bracing piece 7, and the other end of bracing piece 7 is fixed with the insecticidal subassembly, and the center department of top cap 6 is equipped with the conduit 8 that runs through top cap 6, and the lower part of conduit 8 is from last to being fixed with first fixed plate 9 and second fixed plate 10 down in proper order, is equipped with two reelers 11 on the first fixed plate 9. It should be noted that: the side wall of the conduit 8 can be provided with a plurality of threading holes according to the requirement, so that the wiring is convenient. The top cover 6 is a cone, the area is gradually increased from top to bottom, the top cover 6 can completely cover the insect killing assembly, and the effects of rain prevention, sun shading and dust blocking can be achieved. Conduit 8 sets up in the below of top cap 6, runs through top cap 6 but does not stretch out top cap 6, and the top of top cap 6 is connected with horizontal pole 4, and the wire in the horizontal pole 4 can be connected with insecticidal subassembly and other parts through conduit 8. The conduit 8 passes through the first fixing plate 9, and the first fixing plate 9 and the second fixing plate 10 have the same size and are parallel to each other; the two reels 11 arranged on the first fixing plate 9 are symmetrical with the conduit 8 as the center, the two reels 11 are respectively connected with the controller, and the controller simultaneously controls the opening and closing of the two reels 11.

Second fixed plate 10 sets up in the bottom of wire conduit 8, and wire conduit 8 passes second fixed plate 10, but does not stretch out second fixed plate 10, the bottom intermediate position of second fixed plate 10, be located and be equipped with lamp stand 22 under the stand 8, be equipped with fluorescent tube 23 on the lamp stand 22, the cover is equipped with lamp shade 24 on the fluorescent tube 23, lamp shade 24 is transparent, mainly is for protecting fluorescent tube 23, and lamp shade 24 fixes the bottom at second fixed plate 10. The following are required to be explained: the wire conduit 8 passes through the second fixing plate 10, but does not extend out of the second fixing plate 10, so as to facilitate the wire passing through the wire conduit 8 to electrically connect with the lamp socket 22, thereby supplying power to the lamp 23. The lamp tube 23 is a purple LED lamp with a wavelength range of 320-415 nm.

The insecticidal component comprises a high-voltage grid 16 and a high-voltage power grid 17 sleeved in the high-voltage grid 16, wherein the upper end of the high-voltage power grid 17 is arranged in a first upper connecting ring 18, and the lower end of the high-voltage power grid 17 is arranged in a first lower connecting ring 19; the upper end of the high voltage grid 16 is arranged in a second upper connecting ring 20, the lower end is arranged in a second lower connecting ring 21, and the first upper connecting ring 18 and the first lower connecting ring 19 are respectively clamped with the second upper connecting ring 20 and the second lower connecting ring 21. The following are required to be explained: the bottom of the second upper connecting ring 20 is provided with a circle of circular groove 36, the high-voltage grid 16 is composed of a plurality of high-voltage electrodes through electric connecting wires 38, two of the high-voltage electrodes are not connected through the electric connecting wires 38, the two high-voltage electrodes which are not connected through the electric connecting wires 38 are connected with the conducting wires 37, the high-voltage grid 16 is placed in the circular groove 36, the conducting wires 37 penetrate through the top of the second upper connecting ring 20 and are electrically connected with a controller through threading holes in the side wall of the conduit 8, the diameter of each high-voltage electrode is the same as or matched with the width of the circular groove 36, and the high-voltage grid 16 is prevented from being easily drawn out of the circular. Similarly, the second lower connection ring 21 is also provided in the same manner, and the connection of the first upper connection ring 18 and the first lower connection ring 19 to the upper end and the lower end of the high-voltage grid 17 is also provided in the same manner. In order to kill insects with different sizes, the gaps between the high-voltage grids 16 are large, the apertures of the meshes of the high-voltage power grids 17 are small, the high-voltage grids 16 can kill insects with large sizes, and after the insects with small sizes penetrate through the high-voltage grids 16, the insects with small sizes can be killed by the high-voltage power grids 17, so that the insects with small sizes are prevented from being attached to the lamp tube 23. Further, the high-voltage grid 16 and the high-voltage power grid 17 are both cylindrical with openings at the upper end and the lower end, the high-voltage power grid 17 is sleeved in the high-voltage grid 16, and the lamp tube 23 is arranged at the center inside the high-voltage power grid 17.

The further optimization scheme is as follows: the outer side walls of the first upper connecting ring 18 and the first lower connecting ring 19 are respectively fixed with a plurality of connecting strips 34, the end parts of the connecting strips 34 are provided with fixing protrusions, the inner side walls of the second upper connecting ring 20 and the second lower connecting ring 21 are provided with grooves with the same number as the connecting strips 34 at the positions corresponding to the connecting strips 34, when the high-voltage grid 17 is fixed inside the high-voltage grid 16, the connecting strips 34 on the first upper connecting ring 18 and the first lower connecting ring 19 are aligned with the grooves on the second upper connecting ring 20 and the second lower connecting ring 21, so that the connecting strips 34 slide into the grooves, and then the high-voltage grid 17 connected to the first upper connecting ring 18 and the first lower connecting ring 19 is rotated, so that the connecting strips 34 are clamped in the grooves, and the high-voltage grid 17 and the high-voltage grid 16 are relatively fixed; the clamping mode is the same as the mode of fixing by a rotary buckle in the field, and the conventional setting is carried out according to the requirement. Meanwhile, in order to fix the high pressure grids 16 on the second upper connecting ring 20 and the second lower connecting ring 21 more firmly, a plurality of support bars 39 connected with the second lower connecting ring 21 may be fixed on the outer side wall of the second upper connecting ring 20, and at least two support bars 39 may be fixed to fix the second upper connecting ring 20 and the second lower connecting ring 21 and prevent the high pressure grids 16 from being separated from the second upper connecting ring 20 and/or the second lower connecting ring 21.

The circumference on insecticidal subassembly upper portion is fixed with the downward excellent arc recess 12 of round opening, is equipped with protection casing 13 in the excellent arc recess 12, and the top symmetric connection of protection casing 13 has the string 14, and the string 14 is worn out to the top by protection casing 13 bottom, and two strings 14 pass the top of excellent arc recess 12 and are connected with winder 11 through wire wheel 15 respectively. It should be noted that: the major arc groove 12 is formed in an outer side wall of the second upper connection ring 20, and the major arc groove 12 is formed in a circular ring shape, is formed in a circumferential direction of the second upper connection ring 20, and is fixed to the second upper connection ring 20. The protective cover 13 is provided with folds which are in the same shape as the high-voltage grid 16 and are in a cylindrical shape with an upper opening and a lower opening, and the folds can fold the protective cover 13 and collect the protective cover in the major arc-shaped groove 12; one end of the string 14 is fixed at the bottom of the protective cover 13, the other end of the string passes through the folds and passes through the top of the major arc-shaped groove 12, then the string guiding wheel 15 is connected with the reel 11, the winding and the paying-off of the reel 11 are used for realizing the folding and the putting-down of the protective cover 13, so that the protective cover 13 can completely cover the outside of the high-voltage grid 16, and the damage of rain, snow and strong wind to the trap lamp 5 is avoided. In order to facilitate the retraction of the anti-slip cover 13, at least two strings 14 are provided, the two reels 11 retract the strings 14 at the same time, and the number of the reels 11 is the same as that of the strings 14. The protective cover 13 is made of soft waterproof material, so that the thin rope 14 can be conveniently retracted into the arc-shaped groove 12.

A collecting tray 26 is fixed on the outer side wall of the second lower connecting ring 21 through a fixing strip 25, the bottom of the collecting tray 26 is open, a collecting cavity 27 is fixed at the bottom opening of the collecting tray 26, and a plurality of hanging lugs 28 are arranged on the outer side wall of the collecting cavity 27. It should be noted that: the fixing strips 25 are at least two and are equidistantly arranged on the outer side wall of the second lower connecting ring 21, and the bottom opening of the collecting tray 26 is larger than the diameter of the second lower connecting ring 21, so that insects caught and killed on the high voltage grid 17 can fall into the collecting bag 35 hung on the hanging ears 28 through the bottom opening of the collecting tray 26. The insects killed by the high-voltage grid 16 fall on the inner side wall of the collecting tray 26 and slide down into the collecting bag 35 through the gap between the collecting tray 26 and the second lower connecting ring 21. The diameter of the top opening of the collection tray 26 is larger than the diameter of the bottom opening of the top cover 6, and rainwater falling from the top cover 6 can clean the inner side wall of the collection tray 26 in rainwater weather.

The more optimized scheme is as follows: the inner wall of the first lower connecting ring 19 is clamped with a material containing tray 29, and a plurality of grooves 30 are arranged on the material containing tray 29. It should be noted that: the first lower attachment ring 19 is snapped onto the tray 29 in the same manner as the first upper attachment ring 18 and the second upper attachment ring 20. Attractants aiming at different types of insects can be contained in the grooves 30 on the material containing tray 29, so that the aim of continuously killing insects in the daytime is fulfilled, and the aim of automatically killing insects all day long is fulfilled. When the attractant is used up, a hand can be put into the collecting cavity 27, the material containing tray 29 is taken out for feeding, and finally the material containing tray 29 which is fed with the attractant is installed.

In the utility model, the lamp tube 23, the high voltage grid 16, the high voltage grid 17, the anemometer 31, the rainfall sensor 32 and the winder 11 are respectively electrically connected with the controller; the controller controls the opening and closing of the equipment, and the controller controls the opening and closing of the two reels 11 at the same time.

When the insect attracting device is used, the time period for opening and closing the lamp tube 23 is set through the controller, the lamp tube 23 is opened at night, the high-voltage grid 16 and the high-voltage power grid 17 are opened, the lamp tube 23 with a specific wavelength range attracts insects to a light source, so that the insects are electrocuted due to the fact that the insects contact the high-voltage grid 16, the electrocuted insects fall on the inner side wall of the collecting tray 26 and slide into the collecting bag 35 through a gap between the collecting tray 26 and the second lower connecting ring 21; and the insects with smaller volume pass through the high-voltage grid 16 because the insects do not contact the high-voltage grid 16, the insects with smaller volume are killed by the high-voltage grid 17 positioned in the high-voltage grid 16, and the killed insects fall into the collecting bag 35 through the gap between the high-voltage grid 16 and the high-voltage grid 17. In the daytime, the light source is turned off, the insects are attracted to the vicinity of the luring lamp 5 by the attractant in the material containing tray 29, and the insects are killed through the high-voltage grid 16 and the high-voltage power grid 17, so that the insects are automatically killed all day long.

In severe weather such as rain and snow, the range value of the severe weather is preset in the controller, and the range value is mainly set to avoid frequent opening and closing of the lure lamp 5; detected signals are transmitted to the controller through the anemometer 31 and the rain sensor 32, if the range value is reached/exceeded, the high-voltage grid 16, the high-voltage grid 17 and the lamp tube 23 are closed, the wire coiling device 11 is started, the lower part of the protective cover 13 is arranged, the protective cover 13 completely covers the outside of the high-voltage grid 16, and impurities blown by rain or strong wind are prevented from entering the interior of the luring lamp 5. After the weather condition is well changed, the protective cover 13 is retracted, so that the lure lamp 5 continues to work.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides an automatic insect killer of solar energy, includes base (1), fixes cavity lighting fixture (2) on base (1), fixes solar energy component (3) on cavity lighting fixture (2) top, sets up horizontal pole (4) on the upper portion of cavity lighting fixture (2) and sets up moth-killing lamp (5) at the horizontal pole (4) other end, its characterized in that: a control box (33) is arranged on the side wall of the hollow lamp holder (2), and a controller and a storage battery are arranged in the control box (33);

the trap lamp (5) comprises a top cover (6), a plurality of supporting rods (7) are fixed at the bottom of the top cover (6), an insect killing assembly is fixed at the other ends of the supporting rods (7), a conduit (8) penetrating through the top cover (6) is arranged at the center of the top cover (6), a first fixing plate (9) and a second fixing plate (10) are sequentially fixed at the lower part of the conduit (8) from top to bottom, and two reels (11) are arranged on the first fixing plate (9);

the circumference on insecticidal subassembly upper portion upwards is fixed with downward excellent arc recess (12) of round opening, be equipped with protection casing (13) in excellent arc recess (12), the bottom symmetric connection of protection casing (13) has string (14), string (14) are worn out to the top by protection casing (13) bottom, two string (14) are passed the top of excellent arc recess (12) respectively through wire wheel (15) with winder (11) are connected, winder (11) respectively with the controller is connected.

2. The solar automatic insect killer as claimed in claim 1, wherein: the insecticidal assembly comprises a high-voltage grid (16) and a high-voltage power grid (17) sleeved in the high-voltage grid (16), wherein the upper end of the high-voltage power grid (17) is arranged in a first upper connecting ring (18), and the lower end of the high-voltage power grid is arranged in a first lower connecting ring (19); the upper end of the high-voltage grid (16) is arranged in a second upper connecting ring (20), the lower end of the high-voltage grid is arranged in a second lower connecting ring (21), and the first upper connecting ring (18) and the first lower connecting ring (19) are respectively clamped with the second upper connecting ring (20) and the second lower connecting ring (21).

3. The solar automatic insect killer as claimed in claim 2, wherein: second fixed plate (10) set up the bottom of wire conduit (8), just wire conduit (8) pass second fixed plate (10), the bottom of second fixed plate (10), be located be equipped with lamp stand (22) under wire conduit (8), be equipped with fluorescent tube (23) on lamp stand (22), the cover is equipped with lamp shade (24) on fluorescent tube (23), lamp shade (24) are fixed the bottom of second fixed plate (10).

4. The solar automatic insect killer as claimed in claim 2, wherein: the major arc-shaped groove (12) is arranged on the outer side wall of the second upper connecting ring (20).

5. The solar automatic insect killer according to claim 3, wherein: the lamp tube (23) is arranged inside the high-voltage power grid (17).

6. The solar automatic insect killer as claimed in claim 2, wherein: be fixed with catch tray (26) through fixed strip (25) on the lateral wall in the outside of go-between (21) under the second, the bottom opening of catch tray (26), the bottom opening part of catch tray (26) is fixed with collection chamber (27), be equipped with a plurality of hangers (28) on the lateral wall in the outside of collection chamber (27).

7. The solar automatic insect killer as claimed in claim 2, wherein: the inner wall of the first lower connecting ring (19) is clamped with a material containing disc (29), and the material containing disc (29) is provided with a plurality of grooves (30).

8. The solar automatic insect killer as claimed in claim 1, wherein: the cross rod (4) is of a hollow structure and is communicated with the hollow lamp holder (2).

9. The solar automatic insect killer as claimed in claim 1, wherein: the cross bar (4) is provided with a speedometer (31) and a rain sensor (32).