CN108056077B - Multifunctional fruit fly intelligent physical insecticidal lamp - Google Patents

Abstract

The invention discloses a multifunctional fruit fly intelligent physical insecticidal lamp. The device comprises an upper cover and a base, wherein an annular rotating high-voltage power grid group, a lamp tube and a supporting tube are arranged between the base and the upper cover, the top end of the annular high-voltage power grid is connected with an upper box in a sliding manner, the bottom of the annular high-voltage power grid is connected with a thrust bearing tray in a sliding manner, and the thrust bearing tray is connected with the base; a cleaning knife, a reciprocating screw rod and a cleaning brush are arranged between the upper box and the base; the top of going up the box is fixed with driving motor, and the driving motor axle head is equipped with motor gear, and the department that is close to the motor on the motor gear is equipped with little synchronizing gear and passes through synchronous cog belt transmission power to big synchronizing gear, and big synchronizing gear installs on reciprocal lead screw, fastens the lead screw bearing on reciprocal lead screw top on last box through the lead screw bearing lid, is equipped with the cleaning brush on the reciprocal lead screw. The inside and outside of the electric network group are provided with container devices of pheromone attractant. Through the design, the insect-killing and cleaning effects can be optimized, and the intelligent physical insect-killing lamp is an ideal intelligent physical insect-killing lamp.

Description

Multifunctional fruit fly intelligent physical insecticidal lamp

Technical Field

The invention relates to the technical field of insecticidal lamps, in particular to a multifunctional fruit fly intelligent physical insecticidal lamp.

Background

It is known that an insect-killing lamp is a special device for preventing and controlling insect pests and insect-borne diseases by utilizing insect-attracting light sources which are favored by insects in specific spectral ranges according to the characteristics of phototaxis, color, nature, taste, food and humidity of the insects. The main use is trapped and killed of attracting of pest, reduces and stops the use of highly toxic chemical agent, and current insecticidal lamp is single because of technical reason, its insecticidal mode and dead worm clearance mode, can't reach fine insecticidal and clearance effect, and has a lot of congenital deficiencies, specifically as follows:

1. the insecticidal lamp has a small insecticidal area, and the area of the high-voltage net is designed to be too small, so that the lamp is not beneficial to large-area insect catching in the same space; 2. most of the currently used insecticidal lamps are directly supplied by alternating current, and high-voltage power supply easily causes operation and electric shock of irrelevant personnel; 3. there is not automatic accurate shovel to remove, the device of brushing, after the mosquito is died by the high voltage network electric shock, if there is mosquito, insect corpse to glue and do not drop on the high voltage network and cause the low short circuit of high voltage network voltage drop, finally lead to light to lure the effect still to lure the worm, nevertheless lose the insecticidal action, the efficiency of killing reduces or thoroughly lures and does not kill, finally lead to who hangs lamp who the worm is many "under the lamp black" situation, it is serious to hang lamp department large tracts of land harm.

The reason is that the insecticidal lamp cannot be accepted by the public for many years, and the main reason that the insecticidal lamp cannot be widely popularized is that the insect colloid insulating layer on the high-voltage net is induced but not killed and cannot be accurately and thoroughly removed.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, it is an object of the present invention to provide a multifunctional, physical pest-killing lamp of internet of things, which is designed to optimize the above functions by redesigning the driving structure and pest-killing structure of the physical pest-killing lamp and the cleaning structure thereof through a new structure.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the invention relates to a multifunctional fruit fly intelligent physical insect killing lamp, which is provided with an insect receiving barrel, wherein the insect receiving barrel is fixed below a base, an escape-proof cover is arranged between the top of the insect receiving barrel and the base, the base and an upper cover are connected into a whole through four screw rods and eight cover-shaped nuts, an annular rotating high-voltage electric net group, a lamp tube for attracting mosquitoes and flies and a support tube are arranged between the base and the upper cover, the lamp tube is arranged at the center of the annular rotating high-voltage electric net and is arranged on a lamp tube base, and the lamp tube base is fixed at the bottom end of an upper box; the inside and outside of the annular rotating high-voltage electric net set are provided with container devices for attracting color, nature, taste, food and wet pheromone attractant of mosquitoes, flies and insects, the container device at the outside is a sheet hanger and is arranged at the top end of the supporting pipe, the container device at the inner side is a net-shaped cylinder and is arranged at the center of the annular rotating high-voltage electric net set, the outer side of the net-shaped cylinder can be provided with an insect sticking plate, and special attractant containers for fruit flies, mosquitoes, peach fruit borers and the like are arranged in the net-shaped cylinder to form 'six-attraction' killing of various pests.

The top end of the annular rotating high-voltage power grid is provided with a gear disc which is connected with the upper box in a sliding way through a bearing, the bottom of the annular rotating high-voltage power grid is provided with a lower connecting disc which is connected with a thrust bearing tray in a sliding way through a thrust bearing, and the thrust bearing tray is connected with the base; a cleaning knife made of non-conductive materials is arranged between the upper box and the base, a reciprocating screw rod and a cleaning brush are also arranged between the upper box and the base, and the reciprocating screw rod is arranged on a steel sleeve connected with the base; in the upper box, a driving motor is fixed at the top of the upper box, a motor gear is arranged at the shaft end of the driving motor and drives the whole annular rotating high-voltage power grid set to rotate, a small synchronous gear is arranged on the motor gear and close to the motor, and transmits power to a large synchronous gear through a synchronous toothed belt, the large synchronous gear is installed on a reciprocating lead screw, a lead screw bearing at the top end of the reciprocating lead screw is fastened on the upper box through a lead screw bearing cover, and a cleaning brush is installed on the reciprocating lead screw.

The cleaning brush can be a cleaning brush or a non-conductive material cleaning brush.

The cleaning knife is arranged on the supporting tube, and the axial direction of the cleaning knife is positioned through the positioning block at the bottom of the supporting tube.

The fork knife at the front end of the cleaning knife is in contact with the annular rotating high-voltage electric net set, and the cleaning knife is fixed;

when the annular rotating high-voltage power grid is connected with an external power supply, the tail ends of the annular rotating high-voltage power grid, which are connected in parallel with the capacitor through the output end of the external high-voltage pack to achieve pressurization, are respectively connected and installed on the positive conducting ring and the negative conducting ring of the upper box, and conductor contact telescopic electrodes are arranged in the contact sleeves and respectively supply power to the two ends of the annular rotating high-voltage power grid set and the positive electrode net and the negative electrode net.

The invention has the beneficial effects that: according to the design, power is supplied to the annular rotating high-voltage power grid, the power supply device with the contact type conducting ring connected with the conductor contact telescopic electrode is adopted, electric energy is introduced into the annular rotating high-voltage power grid, the supporting parts at two ends of the rotating high-voltage power grid are in sliding rotating connection, the rotating high-voltage power grid is in a rotating state when working, the insect killing area is effectively enlarged, the comprehensive power of the insect killing lamp is very low within 30 watts, day and night insect killing is carried out, the pheromone attractant container device and the conducting movable contact point can be placed at the center of the annular rotating high-voltage power grid to rotate simultaneously, the working surface of the power grid is accurately shoveled and scraped, and the insect killing effect is more than;

the input voltage of the high-voltage package is 12V, so that the safety voltage for a human body is ensured, a path cannot be formed by secondary high-voltage discharge to the ground, and the life safety can be ensured when the human body carelessly touches a high-voltage net, namely the personal safety is effectively ensured;

the motor drives the rotary high-voltage power grid to rotate, in the rotating process of the rotary high-voltage power grid, the support tube, the base and the longitudinal and transverse cleaning systems arranged on the upper box are started, the non-conductive material cleaning knife arranged on the support tube is used for accurately scraping garbage on the high-voltage power grid, meanwhile, the cleaning screw rod rotates to drive the non-conductive cleaning brush to thoroughly clean the cleaning knife and the power grid, and the cleaning device has the advantages that the defect of trapping but not killing is eliminated, the cleaning system works when a trapping and killing body is stained on the power grid, the cleaning system is static and does not do useless work when the trapping and killing body is not stained, the electric energy is saved, and the efficiency is improved by more than ten times;

in conclusion, the intelligent physical insecticidal lamp can achieve the best insecticidal and cleaning effects through a brand-new driving design, and is an ideal intelligent physical insecticidal lamp.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic diagram of the assembly principle of the annular rotating high-voltage power grid of the present invention;

FIG. 3 is a schematic cross-sectional view of an annular rotating high-voltage power grid and a capacitor boosting assembly principle of the invention;

FIG. 4 is a schematic view of the reciprocating lead screw drive of the present invention;

FIG. 5 is a schematic view of a cleaning brush made of non-conductive material and mounted on a reciprocating lead screw according to the present invention;

FIG. 6 is a partial schematic view of a rotating high voltage power grid assembly of the present invention;

FIG. 7 is a schematic view of a hanger and attractant container apparatus of the present invention;

in the figure, 1, an insect receiving barrel, 2, a screw rod, 3, a base, 4, a supporting pipe, 5, a reciprocating screw rod, 6, a cleaning knife, 7, a cleaning brush, 8, an upper box, 9, an upper cover, 10, a nut, 11, a gear disc, 12, a lamp tube base, 13, an annular rotating high-voltage power grid, 14, a positioning block, 15, an anti-escape cover, 16, a driving motor, 17, a motor gear, 18, a bearing, 19, an electrode pad, 20, a thrust bearing, 21, a lower connecting disc, 22, a thrust bearing tray, 23, a conductor contact telescopic electrode, 24, a positive electrode grid, 25, a negative electrode grid, 26, a contact sleeve, 27, a positive conductive ring, 28, a negative conductive ring, 29, a non-conductive material cleaning brush, 30, a lamp tube, 31, a mesh cylinder, 32, an insect sticking plate, 33, an attractant container, 34, a sheet hanger, 35, a high-voltage bag, 36, a capacitor, 37, a steel sleeve, 38 and an electrode, 82. a small synchronous gear 83, a motor gear 84, a synchronous toothed belt 85, a large synchronous gear 86, a screw rod bearing cover 87 and a screw rod bearing.

Detailed Description

The invention relates to a multifunctional fruit fly intelligent physical insecticidal lamp, which is provided with an upper cover 9 and a base 3, wherein the multifunctional fruit fly intelligent physical insecticidal lamp is provided with an insect receiving barrel 1, the insect receiving barrel 1 is fixed below the base 3, the top of the insect receiving barrel 1 is provided with an escape-proof cover 15 between the insect receiving barrel 1 and the base 3, the base 3 and the upper cover 9 are connected into a whole through four screw rods 2 and eight cover-shaped nuts 10, an annular rotating high-voltage power grid 13, a lamp tube 30 for attracting mosquitoes and flies and a support tube 4 are arranged between the base 3 and the upper cover 9, the lamp tube 30 is arranged at the center of the annular rotating high-voltage power grid 13 and is arranged on a lamp tube base 12, and the lamp tube base 12 is fixed at the bottom end; the top end of the annular rotating high-voltage power grid 13 is provided with a gear disc 11 which is connected with the upper box 8 in a sliding way through a bearing 18, the bottom of the annular rotating high-voltage power grid 13 is provided with a lower connecting disc 21 which is connected with a thrust bearing tray 22 in a sliding way through a thrust bearing 20, and the thrust bearing tray 22 is connected with the base 3; a cleaning knife 6 made of non-conductive materials is arranged between the upper box 8 and the base 3, a reciprocating lead screw 5 and a cleaning brush 7 are also arranged between the upper box 8 and the base 3, the reciprocating lead screw 5 is arranged on a steel sleeve 37 connected with the base 3 and is fixed on the base 3 through the steel sleeve 37; in the upper box 8, a driving motor 16 is fixed at the top of the upper box 8, a motor gear 83 is arranged at the shaft end of the driving motor 16, a small synchronizing gear 82 is arranged on the motor gear 83 and close to the motor 16, and transmits power to a large synchronizing gear 85 through a synchronizing toothed belt 84, the large synchronizing gear 85 is installed on a reciprocating lead screw 5, the reciprocating lead screw 5 fastens a lead screw bearing 87 at the top end of the reciprocating lead screw 5 on the upper box 8 through a lead screw bearing cover 86, and a cleaning brush 7 is installed on the reciprocating lead screw 5.

As shown in fig. 6, the cleaning knife 6 is mounted on the support tube 4, the axial direction of the cleaning knife 6 is positioned by a positioning block 14 at the bottom of the support tube 4, a fork knife at the front end of the cleaning knife 6 is contacted with the annular rotating high-voltage power grid 13, and the cleaning knife 6 is insulated and fixed.

Rotatory high voltage electric network of annular 13 is at rotatory in-process, indulges that sets up on stay tube 4 and base 3 and the last box 8, horizontal clearance system starts, installs the accurate shovel of the non-conductive material clearance sword 6 implementation on stay tube 4 to the rotatory high voltage electric network of annular 13 and scrapes, and it is rotatory with this while to clear up lead screw 5, drives non-conductive material clearance brush 7 and thoroughly cleans with water to clearance sword 6 and the rotatory high voltage electric network of annular 13, and this actuating mechanism's effect is: the defects of trapping but not killing are avoided, the cleaning system can intelligently work when the trapping and killing insects are stuck to the net, and the trapping and killing insects are static and do no useless work when the trapping and killing insects are not stuck, so that the electric energy is saved, and the efficiency is improved by more than ten times;

as shown in fig. 3, when the ring-shaped rotating high-voltage power grid 13 is connected to an external power supply, the ends of the high-voltage power grid 13 after being boosted by a capacitor 36 of an external high-voltage pack 35 are respectively connected to and mounted on the positive conducting ring 27 and the negative conducting ring 28 of the upper box 8, a conductor contact telescopic electrode 23 is arranged in the contact sleeve 26, and the conductor contact telescopic electrode 23 is respectively supplied with power to both ends of the ring-shaped rotating power grid 13 and any positive electrode net 24 and any negative electrode net 25.

As shown in fig. 2, 3 and 4, the annular rotating high-voltage power grid 13 is provided with a lower connecting disc 21, an electrode lead screw 38 is installed on the lower connecting disc 21, a positive electrode grid, a negative electrode grid and an electrode pad 19 are respectively assembled on the electrode lead screw 38, the integral annular rotating high-voltage power grid 13 is fastened through a nut, and the power source of the annular rotating high-voltage power grid 13 is as follows: the driving motor 16 drives the motor gear 83, the motor gear 83 transmits force to the gear disc 11, the gear disc 11 and the annular rotating high-voltage power grid 13 are combined into a whole, and the driving motor 16 drives the whole annular rotating high-voltage power grid 13 to rotate. When the annular rotating high-voltage power network group 13 is connected with an external power supply, the tail ends of the output ends of the external high-voltage package 35, which are connected in parallel by the capacitor 36 to achieve pressurization, are respectively connected and installed on the positive conducting ring 27 and the negative conducting ring 28 of the upper box 8.

As shown in fig. 7, container devices for attracting color, character, taste, food and pheromone of mosquitoes, flies and insects are arranged inside and outside the annular rotary high-voltage electric net group 13, the outer container device is a sheet-shaped hanger 34 and is arranged at the top end of the supporting pipe 4, the inner container device is a net-shaped cylinder 31 and is arranged at the center inside the annular rotary high-voltage electric net group 13, an insect sticking plate 32 can be arranged outside the net-shaped cylinder 31, and a special attractant container 33 for fruit flies, mosquitoes, peach fruit borers and the like is arranged inside the net-shaped cylinder 31.

Claims (1)

1. The utility model provides a multi-functional fruit fly intelligence physics insecticidal lamp, has upper cover and base, its characterized in that: the mosquito catching device is provided with an insect catching barrel, the insect catching barrel is fixed below a base, an anti-escape cover is arranged between the top of the insect catching barrel and the base, the base and an upper cover are connected into a whole through four screw rods and eight cover-shaped nuts, an annular rotating high-voltage electric net group, a lamp tube for attracting mosquitoes and flies and a support tube are arranged between the base and the upper cover, the lamp tube is arranged at the center of the annular rotating high-voltage electric net and is installed on the lamp tube base, and the lamp tube base is fixed at the bottom end of an upper box; the inner side and the outer side of the annular rotating high-voltage electric net set are respectively provided with a container device for attracting color, nature, taste, food and wet pheromone attractant of mosquitoes and flies, the container device at the outer side is a sheet-shaped hanger and is installed at the top end of the supporting pipe, the container device at the inner side is a net-shaped cylinder and is installed at the center in the annular rotating high-voltage electric net set, the outer side of the net-shaped cylinder is provided with a pest sticking plate, and an attractant container special for the fruit flies, the mosquitoes and the peach fruit borers is placed in the net-shaped cylinder to trap and kill various pests by six lures; the top end of the annular rotating high-voltage power grid is provided with a gear disc which is connected with the upper box in a sliding way through a bearing, the bottom of the annular rotating high-voltage power grid is provided with a lower connecting disc which is connected with a thrust bearing tray in a sliding way through a thrust bearing, and the thrust bearing tray is connected with the base; a cleaning knife made of non-conductive materials is arranged between the upper box and the base, a reciprocating screw rod and a cleaning brush are also arranged between the upper box and the base, and the reciprocating screw rod is arranged on a steel sleeve connected with the base; in the upper box, a driving motor is fixed at the top of the upper box, a motor gear is arranged at the shaft end of the driving motor to drive the whole annular rotating high-voltage power grid set to rotate, a small synchronous gear is arranged on the motor gear and close to the motor, and transmits power to a large synchronous gear through a synchronous toothed belt, the large synchronous gear is arranged on a reciprocating lead screw, a lead screw bearing at the top end of the reciprocating lead screw is fastened on the upper box through a lead screw bearing cover, and a cleaning brush is arranged on the reciprocating lead screw; the cleaning knife is arranged on the supporting tube, and the axial direction of the cleaning knife is positioned by a positioning block at the bottom of the supporting tube; the fork knife at the front end of the cleaning knife is in contact with the annular rotating high-voltage electric net set, and the cleaning knife is fixed; when the annular rotating high-voltage power grid is connected with an external power supply, the tail ends of the annular rotating high-voltage power grid, which are connected in parallel with the capacitor through the output end of the external high-voltage pack to achieve pressurization, are respectively connected and installed on the positive conducting ring and the negative conducting ring of the upper box, and conductor contact telescopic electrodes are arranged in the contact sleeves and respectively supply power to two ends of the annular rotating high-voltage power grid set and the positive electrode network and the negative electrode network.

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