CN210319725U - Street lamp device for killing mosquitoes - Google Patents

Abstract

The utility model relates to a street lamp device for killing mosquitoes, which comprises an installation bracket; the plane high-voltage electric shock net and the at least two groups of insect-trapping lighting lamps are mounted on the mounting bracket, the plane high-voltage electric shock net is positioned in the middle of the mounting bracket, and the insect-trapping lighting lamps are respectively positioned on two sides of the plane high-voltage electric shock net; the plane high-voltage electric shock net comprises an insulating panel, wherein an opening is formed in the middle of the insulating panel; the electric shock net body is formed by arranging a plurality of electric shock rods and is used for discharging, the electric shock net body is positioned on one side or two sides of the opening, and the end parts of the electric shock rods are respectively connected and fixed with the insulating panel; the utility model has the advantages of reasonable design, the automatic interval circulation time delay operating condition in turn of the moth-killing illumination lamps and lanterns of plane high-voltage electric shock net both sides has realized the night illumination that is used for in the public place promptly, can high-efficiently kill the mosquito again.

Description

Street lamp device for killing mosquitoes

Technical Field

The utility model relates to a mosquito instrument technical field especially relates to a kill street lamp device of mosquito.

Background

At present, street lamps used in public places such as urban residential quarters, parks, stadiums and the like are only used for night illumination and cannot be used for killing mosquitoes, and the street lamps cannot kill the mosquitoes and attract the mosquitoes, so that residents are bitten by the attracted mosquitoes when moving outdoors; in addition, many pests in the flowers, plants and trees carry viruses and bacteria, and the health of people is affected.

Disclosure of Invention

In order to solve the deficiencies in the prior art, the utility model aims to provide a kill street lamp device of mosquito can provide the night illumination in public place, can kill the mosquito in the public place again high-efficiently.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a kill street lamp device of mosquito which characterized in that includes:

mounting a bracket; and

the plane high-voltage electric shock net and the at least two groups of insect-trapping lighting lamps are installed on the installation support, the plane high-voltage electric shock net is located in the middle of the installation support, and the insect-trapping lighting lamps are respectively located on two sides of the plane high-voltage electric shock net.

The installing support includes fixed bolster and fixed frame, installs respectively on the fixed bolster the moth-killing lamp utensil, fixed frame with fixed bolster connection is fixed and fixed frame internally mounted have the plane high-voltage electric shock net.

One side of the fixed support is fixedly arranged on the upper part of a lamp post body.

The inner sides of the fixed frames are respectively provided with a plurality of support plates, the support plates are respectively positioned on one side or two sides of the plane high-voltage electric shock net, one ends of the support plates are fixedly connected with the fixed frames, and the other ends of the support plates are fixedly connected with the plane high-voltage electric shock net.

The insect attracting lighting lamp comprises an insect attracting light source lamp body and a lampshade, wherein the insect attracting light source lamp body is arranged on a lamp holder of the lampshade, and the lampshade is fixedly connected with the fixing support.

The bottom end of the fixed support further comprises an insect receiving frame fixedly connected with the fixed support, an insect receiving barrel is mounted on the insect receiving frame, and an opening of the insect receiving barrel is arranged upwards and located on the lower portion of the plane high-voltage electric shock net.

A planar high voltage stun net, comprising:

the middle part of the insulating panel is provided with an opening; and

the electric shock net body is formed by arranging a plurality of electric shock rods and used for discharging, the electric shock net body is positioned on one side or two sides of the opening, and the end parts of the electric shock rods are respectively connected and fixed with the insulating panel.

The surface of at least one side of the insulating panel is also provided with side plates fixedly connected with the insulating panel on two sides of the opening, an attracting light source lamp body is fixedly arranged between the side plates positioned on the same side of the insulating panel, and the light emitting surface of the attracting light source lamp body faces the surface of the electric shock net body.

The outer side of the end part of the electric shock rod is further sleeved with an insulating protective sleeve, one end of the insulating protective sleeve is located at the joint of the electric shock rod and the insulating panel, and the other end of the insulating protective sleeve is located inside the opening.

The controller is connected with the electric shock net body and comprises a resonance driving circuit, and the positive electrode of the high-voltage output end of the resonance driving circuit is connected with the plane high-voltage electric shock net in series through a small-gap adjustable discharger.

The intelligent control system also comprises a rainwater sensor, an angle sensor and a human body infrared sensor, wherein the rainwater sensor, the angle sensor and the human body infrared sensor are connected with an execution relay switch on the input side of the power supply of the resonance driving circuit.

The resonance driving circuit also comprises a high-voltage discharge resistor connected with the high-voltage capacitor bank.

To sum up, the beneficial effects of the utility model are that: the structural design is reasonable, the automatic interval cycle time-delay alternative working state of the insect-trapping lighting lamps on the two sides of the plane high-voltage electric shock net is realized, night lighting in public places is realized, and mosquitoes can be killed efficiently.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an outer side structure schematic view of a plane high-voltage electric shock net.

Fig. 3 is a schematic view of the inner structure of the planar high-voltage electric shock net.

Fig. 4 is a partially enlarged structural view of "a" in fig. 2.

Fig. 5 is a schematic structural diagram of the resonant driving circuit.

In the figure: the lamp comprises a lamp post body 1, a fixed metal snap ring 2, a fixed support 3, a controller 4, a lampshade 5, a trap light source lamp body 6, a plane high-voltage electric shock net 7, a fixed frame 8, an insect receiving frame 9, an insect receiving barrel 10, a support plate 11, an insulating panel 12, a side plate 13, an electric shock rod 14, a trap light source lamp body 15, an insulating protective sleeve 16, a rain sensor 17, an angle sensor 18, a human body infrared sensor 19, an execution relay switch 20, a high-voltage resonant capacitor 21, a high-voltage transformer 22, a high-voltage capacitor bank 23, a high-voltage discharge resistor 24, an adjustable discharger with a small gap 25, a 2620 KV high-voltage diode and an inductance coil 27.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

As shown in fig. 1 to 5: the embodiment discloses a street lamp device for killing mosquitoes, which comprises a lamp post body 1, a mounting bracket, a plane high-voltage electric shock net 7, a pest trapping and lighting lamp and a controller 4, wherein the specific implementation structure of each component is described as follows.

The height of the lamp post body 1 is 2.6-4 meters, and the structure of the lamp post body 1 can be a conventional single-tube structure, so that the lamp post body can meet the installation requirements of other components.

The mounting bracket comprises a fixed bracket 3, an insect receiving frame 9 and a fixed frame 8, the fixed bracket 3 and the fixed frame 8 are formed by bending pipe bodies, and are welded or bolted and fixed with each other according to the assembly requirement, and the inside of the pipe body of the mounting bracket can be used by threading and releasing a line; one side of the fixed support 3 is fixedly arranged on the lamp post body 1 through a fixed metal snap ring 2, the fixed frame 8 is a rectangular frame, and the fixed frame 8 is positioned in the middle of the fixed support 3;

the insect attracting lighting lamp comprises an insect attracting light source lamp body 6 and a lampshade 5, the insect attracting light source lamp body 6 is mounted on a lamp holder of the lampshade 5, and the lampshade 5 is fixedly connected with the fixed support 3, wherein the insect attracting lighting lamp can automatically work in an interval circulation time-delay alternative working state, so that mosquitoes and insects are influenced by light rays and can move between two sides of the plane high-voltage electric shock net 7 in a reciprocating mode, and the insect attracting lighting lamp is in contact with the plane high-voltage electric shock net 7;

the planar high-voltage electric shock net 7 is mounted inside the fixed frame 8, eight support plates 11 are respectively arranged on the inner side of the fixed frame 8, the support plates 11 are respectively located at four corners of two sides of the planar high-voltage electric shock net 7, one end of each support plate 11 is fixedly welded with the fixed frame 8, the other end of each support plate 11 is fixedly connected with the planar high-voltage electric shock net 7 through a bolt, and the bolt of each support plate 11 penetrates through the planar high-voltage electric shock net 7 and the corresponding support plate 11 and is used for guaranteeing the strength of a mounting structure of the planar high-voltage electric shock;

install one on the connecing worm frame 9 and connect worm bucket 10, connect the neck shrink setting of worm bucket 10, and connect worm frame 9 card to connect the neck of worm bucket 10 to fix worm bucket 10, connect the opening of worm bucket 10 to set up and be located plane high voltage electric shock net 7 lower part for collect the mosquito that drops after the electric shock.

The planar high-voltage electric shock net 7 includes:

an insulating panel 12, wherein an opening is arranged in the middle of the insulating panel 12, the shape of the insulating panel 12 is matched with the shape of the inside of the fixed frame 8, and the opening of the insulating panel 12 is also a rectangular opening;

the electric shock net body is formed by arranging a plurality of electric shock rods 14 and used for discharging, the electric shock net body is positioned on the outer side of the opening, the electric shock rods 14 are longitudinally distributed, a gap of about 5mm is formed between the adjacent electric shock rods 14, the end parts of the electric shock rods 14 are bent and respectively penetrate through the insulating panel 12, the electric shock rods 14 are fixed on the insulating panel 12 through nuts connected with the end parts of the electric shock rods 14 on the inner side of the insulating panel 12, and the bottom ends of the electric shock rods 14 are also connected with conducting strips and used for being connected with a power supply to provide electric power;

furthermore, in order to improve the insect-attracting effect of the planar high-voltage electric shock net 7, the side surfaces of the insulating panel 12 are also provided with side plates 13 fixedly connected with the side surfaces at two sides of the opening, slots are pre-processed on the insulating panel 12, the side plates 13 are inserted into the slots and fixedly arranged, an attracting light source lamp body 15 is fixedly arranged between the side plates 13 positioned at the same side of the insulating panel 12, wherein the luring light source lamp body 15 positioned outside the insulating panel 12 is positioned at the upper part and is obliquely arranged downwards, the luring light source lamp body 15 positioned inside the insulating panel 12 is positioned at the lower part and is obliquely arranged upwards, so that the two luring light source lamp bodies 15 are oppositely arranged, the light emitting surfaces of the luring light source lamp bodies 15 are arranged towards the surface of the electric shock net body, through the irradiation of the luring light source lamp body 15, the electric shock net body emits light to attract surrounding mosquitoes to approach;

further, insulating protective sheath 16 still overlaps to be equipped with in the electric shock pole 14 tip outside, and insulating protective sheath 16 adopts the silicone tube, and insulating protective sheath 16 one end is located the junction of electric shock pole 14 and insulating panel 12, and the insulating protective sheath 16 other end is located inside the opening, through the setting of insulating protective sheath 16, make the clearance between electric shock pole 14 and the insulating panel 12 fill, avoid the mosquito that drops after the electric shock to fall in the clearance, cause the invalid condition such as discharging and stop discharging of plane high-voltage electric shock net 7.

The controller 4 is installed at the top of the installation support, the controller 4 comprises a resonance driving circuit, and a rainwater sensor 17, an angle sensor 18 and a human body infrared sensor 19 which are connected with the resonance driving circuit, and the resonance driving circuit comprises an execution relay switch 20, a high-voltage resonance capacitor 21, a high-voltage transformer 22, a high-voltage capacitor bank 23, a high-voltage discharge resistor 24, a 20KV high-voltage diode 26, an inductance coil 27 and the like; the high-voltage discharge resistor 24 is connected with the high-voltage capacitor bank 23, the execution relay switch 20 is used for being connected with the rainwater sensor 17, the angle sensor 18 and the human body infrared sensor 19, the power input state of the whole resonance driving circuit is controlled by obtaining signals of the rainwater sensor 17, the angle sensor 18 and the human body infrared sensor 19, and when the rainwater sensor, the human body approach and the angle inclination caused by equipment failure are sensed, the execution relay switch 20 can cut off the power input, so that the planar high-voltage electric shock network 7 is uncharged, and the use safety of the planar high-voltage electric shock network is improved;

the power output side of the resonance driving circuit is also connected with the plane high-voltage electric shock net 7 through a small-gap adjustable discharger 25, when the resonance driving circuit is used, the resonance driving circuit pushes the high-voltage transformer 22 to be boosted to 12KV, the high-voltage transformer is rectified into direct current high voltage through a 20KV high-voltage diode 26, the direct current high voltage is used for rapidly charging the high-voltage capacitor bank 23, after the high-voltage capacitor bank 23 is fully charged, the high-voltage capacitor bank 23 passes through the small-gap adjustable discharger 25 to ionize air through the small gap to be conductive, and the high-voltage electric shock net 7 forms a micro-current high-voltage electric field loop, under the condition of the specific micro-current high-voltage electric field, if mosquitoes are trapped by light and approach the plane high-voltage electric shock net 7, the mosquitoes form a strong loop condition with the high-voltage electric field of the;

the resonant driving circuit has the advantages that:

1. the resonance frequency of the high-frequency resonance circuit is in the range of 30-50KHz, and the high-voltage transformer 22 is driven to boost by strong current;

2. the design of the small-gap adjustable discharger 25 is added, so that the problem that agricultural pests with larger volume cannot be discharged and hit once when the high-voltage capacitor bank 23 is discharged, namely the agricultural pests are pasted on the plane high-voltage electric shock net 7 to form short circuit, at the moment, the plane high-voltage electric shock net 7 cannot be charged and discharged again to cause the known phenomenon of equipment failure is solved, the common fault of all the existing deinsectization equipment is solved, the design of the small-gap adjustable discharger 25 is added, and the sustainable and multiple strong current quick discharge is realized, and the known phenomenon is solved;

3. the design of adding a high-voltage discharge resistor 24 within 1000M ohm connected in parallel with the high-voltage capacitor bank 23 thoroughly solves the problem that a high-voltage capacitor has electricity when the high-voltage capacitor is not discharged, the phenomenon is also a common problem of all the existing deinsectization equipment, the high-voltage resistor design within 1000M ohm is connected in parallel, when the equipment is not used, the resistor gradually and automatically discharges the residual electricity of the capacitor, and the safety is improved.

The above is only the preferred embodiment of the present invention, as long as the preferred embodiment is realized by the same means, the objective technical solution of the present invention all belongs to the protection scope of the present invention.

Claims (10)

1. The utility model provides a kill street lamp device of mosquito which characterized in that includes:

mounting a bracket; and

the plane high-voltage electric shock net and the at least two groups of insect-trapping lighting lamps are installed on the installation support, the plane high-voltage electric shock net is located in the middle of the installation support, and the insect-trapping lighting lamps are respectively located on two sides of the plane high-voltage electric shock net.

2. The mosquito killing street lamp device as claimed in claim 1, wherein: the installing support includes fixed bolster and fixed frame, installs respectively on the fixed bolster the moth-killing lamp utensil, fixed frame with fixed bolster connection is fixed and fixed frame internally mounted have the plane high-voltage electric shock net.

3. The mosquito killing street lamp device as claimed in claim 2, wherein: the inner sides of the fixed frames are respectively provided with a plurality of support plates, the support plates are respectively positioned on one side or two sides of the plane high-voltage electric shock net, one ends of the support plates are fixedly connected with the fixed frames, and the other ends of the support plates are fixedly connected with the plane high-voltage electric shock net.

4. The mosquito killing street lamp device as claimed in claim 1, wherein: the insect attracting lighting lamp comprises an insect attracting light source lamp body and a lampshade, wherein the insect attracting light source lamp body is arranged on a lamp holder of the lampshade, and the lampshade is fixedly connected with the fixed support.

5. The mosquito killing street lamp device as claimed in claim 1, wherein the planar high voltage electric shock net comprises:

the middle part of the insulating panel is provided with an opening; and

the electric shock net body is formed by arranging a plurality of electric shock rods and used for discharging, the electric shock net body is positioned on one side or two sides of the opening, and the end parts of the electric shock rods are respectively connected and fixed with the insulating panel.

6. The mosquito killing street lamp device as claimed in claim 5, wherein: the surface of at least one side of the insulating panel is also provided with side plates fixedly connected with the insulating panel on two sides of the opening, an attracting light source lamp body is fixedly arranged between the side plates positioned on the same side of the insulating panel, and the light emitting surface of the attracting light source lamp body faces the surface of the electric shock net body.

7. The mosquito killing street lamp device as claimed in claim 5, wherein: the outer side of the end part of the electric shock rod is further sleeved with an insulating protective sleeve, one end of the insulating protective sleeve is located at the joint of the electric shock rod and the insulating panel, and the other end of the insulating protective sleeve is located inside the opening.

8. The mosquito killing street lamp device as claimed in claim 5, wherein: the controller is connected with the electric shock net body and comprises a resonance driving circuit, and the positive electrode of the high-voltage output end of the resonance driving circuit is connected with the plane high-voltage electric shock net in series through a small-gap adjustable discharger.

9. The mosquito killing street lamp device as claimed in claim 8, wherein: the intelligent control system also comprises a rainwater sensor, an angle sensor and a human body infrared sensor, wherein the rainwater sensor, the angle sensor and the human body infrared sensor are connected with an execution relay switch on the input side of the power supply of the resonance driving circuit.

10. The mosquito killing street lamp device as claimed in claim 8, wherein: the resonance driving circuit also comprises a high-voltage discharge resistor connected with the high-voltage capacitor bank.

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