CN111937830B - Multifunctional deinsectization device - Google Patents

Abstract

The invention discloses a multifunctional deinsectization device, which comprises a floater removing system, an aeration system, a photocatalytic mosquito trapping system, a camera system, an atomization deinsectization system and a pesticide spreading system, wherein the aeration system, the photocatalytic mosquito trapping system, the camera system, the atomization deinsectization system and the pesticide spreading system are arranged on a carrier system; the invention is matched with the floater removing system, can realize the effect of removing the floaters such as fallen leaves and the like on the water surface, does not need manual salvage, saves time and labor and achieves the effect of preventing mosquitoes in advance; the photocatalysis mosquito-luring system can lure mosquitoes from multiple angles, and further improves the effect of inducing the mosquitoes and strengthens the insecticidal action through simulating the damp-heat high-temperature environment of mosquito gathering. The invention can realize atomization spraying insect killing through the atomization insect killing system, can realize automatic medicine spraying through the medicine spreading system, thereby realizing the effects of driving and flooding mosquitoes, and improving the precision degree and the working efficiency of operation by insect killing or insect prevention operation means under the auxiliary cooperation of the camera system.

Description

Multifunctional deinsectization device

Technical Field

The invention relates to the technical field of deinsectization equipment, in particular to a multifunctional deinsectization device.

Background

Along with the level of the whole clothes and inhabitation of people is greatly improved, for example, people have changed from the former inhabitation standard of living in safe to the standard of living in safe in the current safe, people not only put forward higher requirements for the safety of living in the house, but also put forward higher requirements for the living environment around the house, the better living environment can really provide better living experience for residents, but also can cause more environmental insect pests, for example, a large amount of water surface landscape environments can not lead to the fragility of the stability of an underwater ecosystem because the water cannot be continuously changed for a long time in a large flow, a large amount of bacteria are bred to form spawning and hatching places favored by mosquitoes, and on the other hand, the oxygen content in the water is low because the water flow is poor, and then a large amount of bacteria can be generated by the self. On the one hand, the land vegetation matched with the water landscape can generate a large amount of fallen leaves which are decomposed in water to provide nutrients for microorganisms in water. Meanwhile, due to the existence of the water environment, the environment of the area where the vegetation is located is lower in room temperature and more humid, and an area prone to gathering mosquitoes is easily formed.

The existing deinsectization and pest control device aiming at the waterway environment of the residential area has the defects of complete and incomplete functions, more operation and manual participation or intervention, and the device is characterized in that: (1) most of the existing equipment is not provided with a water surface leaf removing device, but needs manual disturbance, on one hand, the efficiency of manual salvage is extremely low, only the water surface landscape near-ground area can be salvaged, the center of the water surface landscape and the like can be operated by a carrier independently, and on the other hand, due to the timeliness of manual operation, a large part of fallen leaves can not be salvaged and then sink into water; (2) at present, most devices are not provided with a ventilation system, and aeration pipelines are generally independently arranged under water, but the arrangement has the advantages that the aeration range is extremely small, the device only can play a role of regional oxygen supply and cannot provide a role of stirring water, and the laying cost and the maintenance and operation cost are high; (3) although most of the existing devices adopt photocatalysis induction mosquito killing, the devices are only arranged in a fixed-point area, when the induction range is exceeded, the attraction of mosquitoes is low, the insecticidal effect is poor, only optical induction is arranged, so that the induction effect is common, meanwhile, because the mosquito killing mode adopts an electric shock mode, pedestrians need to be reminded under any environment to avoid accidental injury, at most, the equipment in the current stage is only provided with a warning board on corresponding equipment, and the safety factor is low; (4) when a large amount of mosquitoes gather and lay eggs and hatch on the surface of water or vegetation, current equipment can't disturb or even kill it mostly, can only drive and drown the mosquito through artifical spraying, but artifical spraying is wasted time and energy, and the spraying range is little, the water intaking difficulty just is restricted to the water pipe distance. The above problems are also encountered when spreading the agricultural chemicals over land and water.

Therefore, based on the above defects, in the field of environmental governance associated with residential housing, there is still a need for research and improvement of novel multifunctional deinsectization devices, which is also a research focus and focus in the field at present, and is the starting point and power of the present invention.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a multifunctional deinsectization device.

In order to achieve the purpose, the invention provides the following technical scheme:

a multifunctional deinsectization device comprises a floater removing system, an aeration system, a photocatalysis mosquito trapping system, a camera system, an atomization deinsectization system and a pesticide spraying system, wherein the aeration system, the photocatalysis mosquito trapping system, the camera system, the atomization deinsectization system and the pesticide spraying system are arranged on a carrier system;

the floater removing system comprises a basket, a flange, a lifting door, a first telescopic rod, a rotary joint and a first sliding chute; a plurality of flanges are arranged in the basket, a lifting door is arranged at the top of the basket, one side of the basket) is connected with a first telescopic rod, and two ends of the first telescopic rod are connected with a first sliding groove through a rotary joint;

the aeration system comprises an air suction nozzle, a pipeline, an air box, a telescopic sleeve, an air pipe and a hole; the air box is connected with the air suction nozzle through a plurality of pipelines, a plurality of telescopic sleeves are arranged on the air box, the lower ends of the telescopic sleeves are connected with an air pipe, and a plurality of holes are formed in the air pipe;

the photocatalytic mosquito trapping system comprises an outer frame, a light pipe, a telescopic rod II, a sleeve head, a rotating shaft I, a panel, a rotating column, a cross beam and a heating rod; the light tube type solar cell module is characterized in that a plurality of light tubes are arranged in the outer frame, a plurality of second telescopic rods are arranged at the top of the outer frame, a first rotating shaft is arranged at one ends of the second telescopic rods through sleeve heads, a panel is connected to the first rotating shaft, and the bottom of the outer frame is connected with the rotating column.

The atomization deinsectization system comprises a telescopic sleeve, a pipe network, a water tank, a rotating shaft III, a connecting rod, a spray head I, a liquid outlet hole I, a rotating shaft I and rotating blades; one side of the water tank is connected with a plurality of telescopic sleeves through a pipe network, a rotating shaft III is installed on the water tank and connected with a first spray nozzle through a connecting rod, a plurality of liquid outlet holes I are formed in the first spray nozzle, a plurality of rotating shafts I are arranged on the first spray nozzle, and a plurality of rotating blades are connected to the rotating shafts I;

the pesticide spreading system comprises a tank body, a flip door, a hose I, a water pump, a stirring mechanism and a spraying mechanism; the tank body is provided with a flip door at the top, the tank body is connected with a stirring mechanism through a first hose, a water pump is arranged on the first hose, and the stirring mechanism is connected with a spraying mechanism.

The carrier system comprises a platform, a motor, a rotating shaft, steering blades, a rotating shaft five, a propeller and a moving mechanism; the platform is characterized in that motors are arranged on two sides of the front end of the platform, a rotating shaft is installed at the top of each motor, one end of each rotating shaft is connected with a steering blade, a plurality of rotating shafts are arranged on the motors, a plurality of propellers are connected to the rotating shafts, and a plurality of action mechanisms are connected to two sides of the platform.

Preferably, the camera system comprises a sliding rod, a first support plate, a second rotating shaft, a shell and a camera; the first supporting plate and the second supporting plate are arranged on the sliding rod in a sliding mode respectively, the upper end and the lower end of the second rotating shaft are arranged on the second supporting plate and the first supporting plate respectively, the camera is arranged on the second rotating shaft, and the outer side of the camera is provided with a shell.

Preferably, the number of the photocatalytic mosquito trapping systems is two, a cross beam is connected between the rotating columns of the two photocatalytic mosquito trapping systems, and a plurality of heating rods are arranged on the cross beam.

Preferably, the stirring mechanism comprises a box body I, a rotating shaft IV, a rod, a packing auger, a transmission crawler and a rotating gear; two rotating shafts IV are arranged in the box body I, a plurality of rods are arranged on one rotating shaft IV, a packing auger is arranged on the other rotating shaft IV, the upper ends of the rotating shafts IV are arranged on a transmission crawler belt, and the transmission crawler belt is meshed with a rotating gear.

Preferably, the spraying mechanism comprises a second box body, a second sliding groove, a first sliding table, a water absorber, a zipper, a third sliding groove, a second sliding table, a telescopic column, a fourth sliding groove, a third sliding table, a rotary base, a second spray nozzle, a second liquid outlet hole and a second hose; be provided with spout two on the two inner walls of box, slip table one slides and sets up on spout two, slip table one side is connected with the ware that absorbs water, three settings of spout are at two tops of box, two slides of slip table set up on spout three, two tops of slip table have connected gradually flexible post, spout four, it is provided with slip table three to slide on the spout four, three tops of slip table are provided with rotating base, the rotating base upper end is connected with shower nozzle two, be provided with a plurality of on the shower nozzle two and go out liquid hole two, two both ends of hose are connected with shower nozzle two and the ware that absorbs water respectively, hose two stretches into inside two boxes through the zip fastener that sets up at two tops of box.

Preferably, the action mechanism comprises a second rotating shaft, a third telescopic rod, a third rotating shaft, a fourth telescopic rod, a fourth rotating shaft, a fifth rotating shaft and an action crawler; the rotating shaft II is installed on the side face of the platform, two ends of the telescopic rod III are respectively connected with the rotating shaft II and the rotating shaft III, two ends of the telescopic rod IV are respectively connected with the rotating shaft III and the rotating shaft IV, the rotating shaft IV is connected with the rotating shaft V, and the moving crawler is installed on the rotating shaft V.

Preferably, the bellows is disposed at the bottom of the platform.

Preferably, the telescopic tube is located at one side of the platform.

Preferably, the mobile track is triangular.

Preferably, the sides of the basket are formed by dense fences.

Compared with the prior art, the invention has the following beneficial effects:

(1) the invention can realize the effect of removing the floaters such as fallen leaves and the like on the water surface by matching with the floater removing system, does not need manual salvage, saves time and labor, can effectively prevent the fallen leaves from gathering and decomposing to cause mosquito gathering, achieves the effect of preventing mosquitoes in advance, and effectively improves the working efficiency of deinsectization.

(2) The aeration system can realize the aeration effect, on one hand, oxygen is continuously introduced into water to relieve the anoxic condition, on the other hand, the continuous aeration can stir the water to a certain degree, so that the static condition of the water is broken to a certain degree, the stability of an ecological stratum in a water surface landscape is favorably maintained, and mosquitoes are prevented from being gathered.

(3) The photocatalysis mosquito-attracting system can attract mosquitoes from multiple angles, further improves the mosquito-attracting effect and strengthens the insect-killing effect by simulating the damp-heat high-temperature environment for gathering mosquitoes. Meanwhile, the system can also play a role in illuminating and warning people, and the safety coefficient is high. The invention can realize atomization spraying insect killing through the atomization insect killing system, and spray a large amount of water vapor or water drops to form a water mist state, so that mosquitoes can be adhered by the water vapor and can not fly or even drown in a high-humidity environment, and the insect killing effect is effectively improved.

(4) According to the invention, automatic pesticide spraying can be realized through the pesticide spraying system, so that the mosquito can be driven and drowned, the spraying mechanism can adjust the height, horizontal distance and angle orientation of the pesticide sprayed by the system in the spraying process, omnibearing pesticide spraying is realized, the stirring mechanism can stir the pesticide to uniformly mix the pesticide, and the pesticide effect is effectively ensured.

(5) The photocatalysis mosquito-luring system, the photocatalysis mosquito-luring system and the pesticide-spreading system can be matched with the camera system for operation, namely, the insect-killing or insect-preventing operation means can improve the accuracy and the working efficiency of the operation under the auxiliary matching of the camera system.

Drawings

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

FIG. 2 is a schematic structural view of the float removal system of the present invention;

FIG. 3 is a schematic view of the structure of the aeration system of the present invention;

FIG. 4 is a schematic view of the structure of the photocatalytic mosquito-luring system of the present invention;

FIG. 5 is a schematic diagram of the camera system according to the present invention;

FIG. 6 is a schematic view of the atomizing insect-killing system according to the present invention;

FIG. 7 is a schematic diagram of the construction of the present invention;

FIG. 8 is a schematic structural view of a stirring mechanism of the present invention;

FIG. 9 is a schematic view of the spray mechanism of the present invention;

FIG. 10 is a first schematic structural view of a carrier system of the present invention;

FIG. 11 is a second schematic structural view of the carrier system of the present invention;

wherein: basket 1, flange 101, lifting door 102, first telescopic rod 103, rotary joint 104, first chute 105, suction nozzle 2, pipeline 201, air box 202, telescopic sleeve 203, air pipe 204, hole 205, outer frame 3, light pipe 301, second telescopic rod 302, sleeve head 303, first rotary shaft 304, panel 305, rotary column 306, cross beam 307, heating rod 308, sliding rod 4, first support plate 401, second support plate 402, second rotary shaft 403, shell 404, camera 405, telescopic sleeve 5, pipe network 501, water tank 502, third rotary shaft 503, connecting rod 504, first spray head 505, first liquid outlet hole 506, first rotary shaft 507, rotary blade 508, tank 6, flip door 601, first hose 7, water pump 701, first box 8, fourth rotary shaft 801, rod 802, auger 803, transmission crawler 804, rotary gear 805, second box 9, second chute 901, first sliding table 902, water absorber 903, zipper 904, third chute 905, second sliding table 906, telescopic column 907, rotary shaft, The device comprises a sliding chute IV 908, a sliding table III 909, a rotating base 9010, a spray head II 9011, a liquid outlet hole II 9012, a hose II 9013, a platform 10, a motor 11, a rotating shaft 1101, a steering blade 1102, a rotating shaft V1103, a propeller 1104, a rotating shaft II 12, a telescopic rod III 1201, a rotating shaft III 1202, a telescopic rod IV 1203, a rotating shaft IV 1204, a rotating shaft V1205 and a moving crawler 1206.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a multifunctional disinsection device comprises a floating object removing system, an aeration system, a photo-catalytic mosquito attracting system, a camera system, an atomizing insect killing system and a pesticide spraying system, wherein the aeration system, the photo-catalytic mosquito attracting system, the camera system, the atomizing insect killing system and the pesticide spraying system are arranged on a carrier system, and the floating object removing system is arranged at the front end of the carrier system;

the floater removing system comprises a basket 1, a flange 101, a lifting door 102, a first telescopic rod 103, a rotary joint 104 and a first sliding chute 105; a plurality of flanges 101 are arranged in the basket 1, a lifting door 102 is arranged at the top of the basket 1, one side of the basket 1 is connected with a first telescopic rod 103, and two ends of the first telescopic rod 103 are connected with a first sliding groove 105 through a rotary joint 104; the sides of the basket 1 are formed by dense fences.

The aeration system comprises an air suction nozzle 2, a pipeline 201, an air box 202, a telescopic sleeve 203, an air pipe 204 and a hole 205; the air box 202 is connected with the air suction nozzle 2 through a plurality of pipelines 201, a plurality of telescopic sleeves 203 are arranged on the air box 202, the lower ends of the telescopic sleeves 203 are connected with an air pipe 204, and a plurality of holes 205 are arranged on the air pipe 204; the bellows 202 is disposed at the bottom of the platform 10.

The photocatalytic mosquito trapping system comprises an outer frame 3, a light pipe 301, a second telescopic rod 302, a sleeve head 303, a first rotating shaft 304, a panel 305, a rotating column 306, a cross beam 307 and a heating rod 308; a plurality of light tubes 301 are arranged in the outer frame 3, a plurality of second telescopic rods 302 are arranged at the top of the outer frame 3, a first rotating shaft 304 is arranged at one end of each second telescopic rod 302 through a sleeve head 303, a panel 305 is connected to each first rotating shaft 304, and the bottom of the outer frame 3 is connected with a rotating column 306. The outer frame 3 is provided with a motor. The number of the photocatalytic mosquito trapping systems is two, a cross beam 307 is connected between the rotary columns 306 of the two photocatalytic mosquito trapping systems, and a plurality of heating rods 308 are arranged on the cross beam 307. The light pipe 301 may be a mosquito killing light pipe.

The camera system comprises a sliding rod 4, a first support plate 401, a second support plate 402, a second rotating shaft 403, a shell 404 and a camera 405; the first support plate 401 and the second support plate 402 are respectively arranged on the sliding rod 4 in a sliding mode, the upper end and the lower end of the second rotating shaft 403 are respectively arranged on the second support plate 402 and the first support plate 401, the camera 405 is arranged on the second rotating shaft 403, and the outer side of the camera 405 is provided with the shell 404.

The atomization deinsectization system comprises a telescopic sleeve 5, a pipe network 501, a water tank 502, a third rotating shaft 503, a connecting rod 504, a first spray head 505, a first liquid outlet hole 506, a first rotating shaft 507 and rotating blades 508; one side of the water tank 502 is connected with a plurality of telescopic sleeves 5 through a pipe network 501, a third rotating shaft 503 is installed on the water tank 502, the third rotating shaft 503 is connected with a first spray head 505 through a connecting rod 504, a plurality of liquid outlet holes 506 are formed in the first spray head 505, a plurality of rotating shafts 507 are arranged on the first spray head 505, and a plurality of rotating blades 508 are connected to the rotating shafts 507; the telescopic tube 5 is located at one side of the platform 10.

The pesticide spreading system comprises a tank body 6, a flip door 601, a first hose 7, a water pump 701, a stirring mechanism and a spraying mechanism; the top of the tank body 6 is provided with a flip door 601, the tank body 6 is connected with a stirring mechanism through a first hose 7, a water pump 701 is arranged on the first hose 7, and the stirring mechanism is connected with a spraying mechanism. The insecticide stock solution is loaded in the tank body 6. The stirring mechanism comprises a first box body 8, a fourth rotating shaft 801, a rod 802, an auger 803, a transmission crawler 804 and a rotating gear 805; two rotating shafts four 801 are arranged in the box body I8, a plurality of rods 802 are arranged on one rotating shaft four 801, an auger 803 is arranged on the other rotating shaft four 801, the upper end of the rotating shaft four 801 is arranged on a transmission crawler 804, and the transmission crawler 804 is meshed with a rotating gear 805. The spraying mechanism comprises a second box body 9, a second sliding chute 901, a first sliding table 902, a water absorber 903, a zipper 904, a third sliding chute 905, a second sliding table 906, a telescopic column 907, a fourth sliding chute 908, a third sliding table 909, a rotary base 9010, a second spray head 9011, a second liquid outlet 9012 and a second hose 9013; the inner wall of the second box body 9 is provided with a second sliding groove 901, the first sliding table 902 is arranged on the second sliding groove 901 in a sliding mode, one side of the first sliding table 902 is connected with a water absorber 903, a third sliding groove 905 is arranged at the top of the second box body 9, a second sliding table 906 is arranged on the third sliding groove 905 in a sliding mode, the top of the second sliding table 906 is sequentially connected with a telescopic column 907 and a fourth sliding groove 908, a third sliding table 909 is arranged on the fourth sliding groove 908 in a sliding mode, the top of the third sliding table 909 is provided with a rotating base 9010, the upper end of the rotating base 9010 is connected with a second spray head 9011, the second spray head 9011 is provided with a plurality of liquid outlet holes 9012, two ends of a second hose 9013 are respectively connected with the second spray head 9011 and the water absorber 903, and the second hose 9013 extends into the second box body 9 through a zipper arranged at the top of the second box body 9.

The carrier system comprises a platform 10, a motor 11, a rotating shaft 1101, a steering blade 1102, a rotating shaft five 1103, a propeller 1104 and a running mechanism; the utility model discloses a platform, including platform 10, rotation axis 1101, motor 11, rotation axis 1101, a plurality of five 1103 of pivot are provided with on the motor 11, are connected with a plurality of screw 1104 on the five 1103 of pivot, platform 10 both sides are connected with a plurality of action mechanism. The platform 10 is in the shape of a catamaran. The action mechanism comprises a second rotating shaft 12, a third telescopic rod 1201, a third rotating shaft 1202, a fourth telescopic rod 1203, a fourth rotating shaft 1204, a fifth rotating shaft 1205 and an action crawler 1206; the second rotating shaft 12 is installed on the side face of the platform 10, two ends of the third telescopic rod 1201 are respectively connected with the second rotating shaft 12 and the third rotating shaft 1202, two ends of the fourth telescopic rod 1203 are respectively connected with the third rotating shaft 1202 and the fourth rotating shaft 1204, the fourth rotating shaft 1204 is connected with the fifth rotating shaft 1205, and the action crawler 1206 is installed on the fifth rotating shaft 1205. The moving tracks 1206 are triangular.

The working process of the invention is as follows: the device can be used for disinsectization and insect pest prevention on land and water, wherein the working devices are all carried on a carrier system, and the platform 10 is in a catamaran shape, so that the device can be ensured to stably and orderly stay or move on the water. The motor 11 energizes the fifth shaft 1103 to rotate, and then drives the propeller 1104 to rotate to generate a propelling water flow, so that the whole device can move on the water surface. The rotating shaft 1101 can control the orientation of the turning blades 1102, and the orientation of the turning blades 1102 can change the flow direction of the propulsive water flow, thereby adjusting the moving orientation of the device on the water surface. When the device needs to land on the land for operation, the rotation angles of the second rotating shaft 12, the third rotating shaft 1202 and the fourth rotating shaft 1204 are respectively adjusted, the lengths of the third telescopic rod 1201 and the fourth telescopic rod 1203 are adjusted, so that the action crawler 1206 can ascend to a proper position, the action crawler 1206 can be controlled to rotate, the device can walk on the land, and if step terrains or obstacles are met, the fifth rotating shaft 1205 can be adjusted, so that the action crawler 1206 can be overturned, and then the obstacle or the terrains and the like can be crossed. Because of a large amount of plants planted in the water surface landscape or adjacent places of most residential areas, the plants can produce a large amount of fallen leaves and other similar products, and the products fall into water, whether the products float on the water surface or sink into the water bottom, the products can be decomposed due to oxidation reaction, but a large amount of decomposition reaction can provide sufficient nutrients for microorganisms in the water, so that the water surface landscape is more suitable for the mosquitoes to lay eggs and hatch, and the mosquitoes are gathered. This requires timely cleaning and cleaning of the fallen leaves in the landscape on the water surface, especially to prevent them from sinking to the bottom of the water in large quantities. The whole working height of the floating object removing system can be adjusted by controlling the rotary joint 104 to slide on the sliding groove I105, the working inclination angle of the whole system can be adjusted by adjusting the bending angle of the rotary joint 104, the horizontal working position of the system can be adjusted by adjusting the length of the telescopic rod I103, when the lower end of the basket 1 can be properly immersed below the water surface, the falling leaves floating on the water surface can be collected by the control device when the control device moves on the water surface, wherein the water entering the basket 1 can flow out through the gaps of the fences on the outer wall of the basket 1, the falling leaves can be intercepted in the basket 1, and the flange 101 is also arranged for better intercepting the falling leaves and the like so as to prevent the falling leaves entering the basket 1 from flowing out of the basket 1 again due to factors such as water flow back. After the fallen leaves collecting work is finished, the lifting door 102 can be controlled to fall down to close the basket 1. Because the surface of water view of most residential areas is because of reasons such as management and operating cost at present, can't change water or water flow operation for a long time of the large amount of flow of high frequency, so the water in most surface of water view can be regarded as the static state, and the water that the activity degree is minimum causes the problem such as oxygen content low in water very easily, is unfavorable for the stability of ecological stratum in the surface of water view on the one hand, and on the other hand leads to the microorganism of aquatic to breed in a large number because the oxygen deficiency leads to easily, also can lead to a large amount of mosquitos to lay eggs and hatch here, the mosquito gathering. Air is sucked through the air suction nozzle 2, the air is sent into the air box 202 through the pipeline 201, then the air is sent into the air pipe 204 through the telescopic sleeve 203, finally, the air overflows from the hole 205 and enters water, on one hand, oxygen is continuously introduced into the water to relieve the oxygen deficiency condition, on the other hand, the water can be stirred to a certain degree due to continuous aeration, and then the static condition of the water is broken to a certain degree, and the stability of an ecological stratum in the water surface landscape is favorably maintained. Wherein the length of the telescopic sleeve 203 is controlled to adjust the water inlet depth of the aeration operation. The aeration operation needs to be completed by moving the matching device on the water surface. Combine above-mentioned explanation to know when gathering in a large number on the surface of water view when the mosquito spawns, it relies on surface of water tension to stand on the surface of water or stand on the surface of water plant, can't carry out protection against insects at the means of relying on the prevention this moment, can atomize and spray the insecticidal, carries out a large amount of steam or water droplet and sprays and then form the water smoke state, can lead to the mosquito to be drowned by the unable flight of steam adhesion even in high humidity environment. When the device works on a water landscape, water is extracted through the telescopic sleeve 5 and is conveyed to the first spray head 505 through the pipe network 501, the water tank 502 and the connecting rod 504 in sequence, wherein the first spray head 505 sprays water from the first liquid outlet hole 506 by high pressure, the first rotating shaft 507 is controlled to rotate so as to drive the rotating blades 508 to rotate at a high speed, and water flow beams sprayed out are impacted by the rotating blades 508 and can be smashed, so that water mist is formed. The control connecting rod 504 rotates around the third rotating shaft 503 to adjust the orientation of the first nozzle 505, and thus the direction of spraying the water mist. As can be seen from the above statement, no matter the land vegetation on or near the water landscape is very easy to breed a large amount of insect pests such as mosquitoes, so the device is not only required to deinsectize on the water landscape, but also required to be capable of simultaneously carrying out matched insecticidal operation on the land. In the photocatalytic mosquito attracting system, it can be used in both the water surface environment and the land environment. The light pipe 301 generates the inducing light and the light pipe 301 itself has a high temperature, and the mosquitoes are gathered thereto after being stimulated by the inducing light. The outer frame 3 is provided with current to kill flying mosquitoes. The horizontal position of the panel 305 can be adjusted by the length of the second telescopic rod 302, and the heating rod 308 on the cross beam 307 can be heated properly, so that a damp and hot high-temperature environment can be simulated near the system, the mosquito induction effect is further improved, and the insect killing effect is enhanced. Because the device may work late at night or in a place with poor lighting conditions, in order to remind the passing pedestrians that the device is working carefully and avoiding, the rotating speed of the first rotating shaft 304 on the sleeve head 303 is adjusted, so that the rotating speed of the panel 305 around the first rotating shaft 304 is adjusted, and the panels 305 with different rotating speeds can shield the light generated by the light pipe 301, so that the light flickering effect with different frequencies is generated, and the pedestrians can quickly receive the signal. The rotating column 306 can drive the outer frame 3 to rotate, so that no working dead angle exists when the outer frame 3 faces the mosquito flapping. No matter vegetation on the water surface or land needs to be regularly sprayed with pesticide to play a role in controlling pests, the pesticide stock solution is loaded in the tank body 6, the loading process can be completed by opening and closing the flip door 601, then the insecticide stock solution is transmitted into the water pump 701 through the infusion pipeline, meanwhile, the water pump 701 pumps water in the water landscape into the pump through the hose I7, the insecticide and the water are simultaneously conveyed into the box I8 through the liquid conveying pipeline to be fully mixed, wherein the rotation of the rotary gear 805 drives the transmission caterpillar 804 to perform transmission, and then drives the rotating shaft four 801 to rotate, under the support of the movement, the rod 802 and the auger 803 positioned in the box body I8 rotate around the rotating shaft IV 801, and the pesticide and the water can be fully blended and mixed in different stirring modes to the maximum extent to form spraying mixed liquid which can be sprayed and is harmless to human bodies. The mixed liquid is conveyed into the second box body 9 through a liquid conveying pipeline, wherein the mixed liquid can be conveyed into the second spray head 9011 through the water absorber 903, the second hose 9013 and the rotary base 9010 in sequence, and then the mixed liquid is sprayed out through the second liquid outlet 9012 to carry out pesticide spraying operation. The second sliding table 906 is controlled to move on the third sliding groove 905; the telescopic length of the telescopic column 907 is adjusted; the height, horizontal distance and angular orientation of the medicine sprayed by the whole system can be adjusted by controlling the moving position of the sliding table three 909 on the sliding groove four 908 and adjusting the rotating angle of the rotating base 9010, meanwhile, the position of the sliding table one 902 on the sliding groove two 901 can be adjusted in order to match the moving process, the zipper 904 facilitates the movement of the hose two 9013 on the box two 9 along with the movement, and meanwhile, the box two 9 is ensured to be in a relatively sealed state and the mixed liquid cannot be polluted by external substances. Every kind of insecticidal or protection against insects operation means of the device all can improve the degree of accuracy and the work efficiency of operation under camera system's supplementary cooperation, and wherein backup pad one 401 and backup pad two 402 are connected by pivot two 403, and two backup pads can go on nested the sliding from top to bottom on slide bar 4, and then adjust the height of making a video recording, and camera 405 can rotate around pivot two 403 and then adjust the orientation of making a video recording, realizes all-round real-time camera monitoring. The housing 404 may keep the camera from being damaged by foreign object impacts.

In the embodiment, the insecticide is safe, so that the insecticide is harmless to people and livestock under the condition of normal use, and the part of the device for containing the insecticide is provided with an obvious mark to avoid misoperation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a multi-functional deinsectization device which characterized in that: the device comprises a floater removing system, an aeration system, a photocatalytic mosquito trapping system, a camera system, an atomization and disinsection system and a pesticide spraying system which are arranged on a carrier system, wherein the floater removing system is arranged at the front end of the carrier system;

the floater removing system comprises a basket (1), a flange (101), a lifting door (102), a first telescopic rod (103), a rotary joint (104) and a first sliding chute (105); a plurality of flanges (101) are arranged in the basket (1), a lifting door (102) is arranged at the top of the basket (1), a first telescopic rod (103) is connected to one side of the basket (1), and two ends of the first telescopic rod (103) are connected with a first sliding groove (105) through a rotary joint (104);

the aeration system comprises an air suction nozzle (2), a pipeline (201), an air box (202), a telescopic sleeve (203), an air pipe (204) and a hole (205); the air box (202) is connected with the air suction nozzle (2) through a plurality of pipelines (201), a plurality of telescopic sleeves (203) are arranged on the air box (202), the lower ends of the telescopic sleeves (203) are connected with an air pipe (204), and a plurality of holes (205) are formed in the air pipe (204);

the photocatalytic mosquito trapping system comprises an outer frame (3), a light pipe (301), a second telescopic rod (302), a sleeve head (303), a first rotating shaft (304), a panel (305), a rotating column (306), a cross beam (307) and a heating rod (308); a plurality of light tubes (301) are arranged in the outer frame (3), a plurality of second telescopic rods (302) are arranged at the top of the outer frame (3), a first rotating shaft (304) is arranged at one end of each second telescopic rod (302) through a sleeve head (303), a panel (305) is connected to each first rotating shaft (304), and the bottom of the outer frame (3) is connected with a rotating column (306);

the atomization deinsectization system comprises a telescopic sleeve (5), a pipe network (501), a water tank (502), a rotating shaft III (503), a connecting rod (504), a spray head I (505), a liquid outlet I (506), a rotating shaft I (507) and rotating blades (508); one side of the water tank (502) is connected with a plurality of telescopic sleeves (5) through a pipe network (501), a rotating shaft III (503) is installed on the water tank (502), the rotating shaft III (503) is connected with a spray head I (505) through a connecting rod (504), the spray head I (505) is provided with a plurality of liquid outlet holes I (506), the spray head I (505) is provided with a plurality of rotating shafts I (507), and the rotating shafts I (507) are connected with a plurality of rotating blades (508);

the pesticide spreading system comprises a tank body (6), a flip door (601), a first hose (7), a water pump (701), a stirring mechanism and a spraying mechanism; the top of the tank body (6) is provided with a flip door (601), the tank body (6) is connected with a stirring mechanism through a first hose (7), a water pump (701) is arranged on the first hose (7), and the stirring mechanism is connected with a spraying mechanism;

the carrier system comprises a platform (10), a motor (11), a rotating shaft (1101), a steering blade (1102), a rotating shaft five (1103), a propeller (1104) and a moving mechanism; the utility model discloses a platform, including platform (10), rotation axis (1101), motor (11), rotation axis (1101) and motor (11), rotation axis (1101) one end is connected with and turns to blade (1102), is provided with a plurality of pivot five (1103) on motor (11), is connected with a plurality of screw (1104) on pivot five (1103), platform (10) both sides are connected with a plurality of action mechanism.

2. A multi-functional insect removal device as claimed in claim 1, wherein: the camera system comprises a sliding rod (4), a first support plate (401), a second support plate (402), a second rotating shaft (403), a shell (404) and a camera (405); the first support plate (401) and the second support plate (402) are arranged on the sliding rod (4) in a sliding mode respectively, the upper end and the lower end of the second rotating shaft (403) are arranged on the second support plate (402) and the first support plate (401) respectively, the camera (405) is arranged on the second rotating shaft (403), and the outer side of the camera (405) is provided with the shell (404).

3. A multi-functional insect removal device as claimed in claim 2, wherein: the mosquito system is lured to photocatalysis is two, is connected with crossbeam (307) between two photocatalysis mosquito system's column spinner (306), is provided with a plurality of heating rod (308) on crossbeam (307).

4. A multi-functional insect removal device as claimed in claim 3, wherein: the stirring mechanism comprises a first box body (8), a fourth rotating shaft (801), a rod (802), a packing auger (803), a transmission crawler (804) and a rotating gear (805); two rotating shafts IV (801) are arranged in the box body I (8), a plurality of rods (802) are arranged on one rotating shaft IV (801), a packing auger (803) is arranged on the other rotating shaft IV (801), the upper end of the rotating shaft IV (801) is installed on a transmission crawler belt (804), and the transmission crawler belt (804) is meshed with a rotating gear (805).

5. The multifunctional disinsection device of claim 4, wherein: the spraying mechanism comprises a box body II (9), a sliding groove II (901), a sliding table I (902), a water absorber (903), a zipper (904), a sliding groove III (905), a sliding table II (906), a telescopic column (907), a sliding groove IV (908), a sliding table III (909), a rotating base (9010), a spray head II (9011), a liquid outlet hole II (9012) and a hose II (9013); a second sliding groove (901) is formed in the inner wall of the second box body (9), the first sliding table (902) is arranged on the second sliding groove (901) in a sliding mode, a water absorber (903) is connected to one side of the first sliding table (902), a third sliding groove (905) is formed in the top of the second box body (9), the second sliding table (906) is arranged on the third sliding groove (905) in a sliding mode, a telescopic column (907) is sequentially connected to the top of the second sliding table (906), the four sliding chutes (908), the sliding chutes (908) are provided with the sliding tables (909) in a sliding manner, the tops of the sliding tables (909) are provided with rotating bases (9010), the upper ends of the rotating bases (9010) are connected with the second spray head (9011), the second spray head (9011) is provided with a plurality of liquid outlet holes (9012), the two ends of the second hose (9013) are respectively connected with the second spray head (9011) and the water absorber (903), and the second hose (9013) extends into the second box body (9) through a zipper (904) arranged at the top of the second box body (9).

6. A multi-functional insect removal device as claimed in claim 5, wherein: the action mechanism comprises a second rotating shaft (12), a third telescopic rod (1201), a third rotating shaft (1202), a fourth telescopic rod (1203), a fourth rotating shaft (1204), a fifth rotating shaft (1205) and an action crawler (1206); the rotating shaft II (12) is installed on the side face of the platform (10), two ends of the telescopic rod III (1201) are respectively connected with the rotating shaft II (12) and the rotating shaft III (1202), two ends of the telescopic rod IV (1203) are respectively connected with the rotating shaft III (1202) and the rotating shaft IV (1204), the rotating shaft IV (1204) is connected with the rotating shaft V (1205), and the moving crawler (1206) is installed on the rotating shaft V (1205).

7. A multi-functional insect removal device as claimed in claim 6, wherein: the air box (202) is arranged at the bottom of the platform (10).

8. A multifunctional pest control device according to any one of claims 1 to 7, wherein: the telescopic sleeve (5) is positioned on one side of the platform (10).

9. A multi-functional insect removal device as claimed in claim 6, wherein: the moving tracks (1206) are triangular.

10. A multifunctional pest control device according to any one of claims 1 to 7, wherein: the side of the basket (1) is formed by dense fences.

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