CN221104576U

CN221104576U - Disease medium biological killing device

Info

Publication number: CN221104576U
Application number: CN202322961667.5U
Authority: CN
Inventors: 杨惠; 陆宽勇; 谢德盛; 闫菲菲; 杜志辉; 张莉; 谢鹏
Original assignee: Center For Disease Control And Prevention Of Central Theater Of Chinese Pla; Shenzhen Longray Technology Co ltd
Current assignee: Center For Disease Control And Prevention Of Central Theater Of Chinese Pla; Shenzhen Longray Technology Co ltd
Priority date: 2023-11-01
Filing date: 2023-11-01
Publication date: 2024-06-11
Anticipated expiration: 2033-11-01

Abstract

The application provides a disease medium biological killing device, which relates to the field of disease medium biological prevention and treatment, and comprises a trapping cavity and an upper base, wherein the bottom of the trapping cavity is provided with a moving mechanism, one side of the trapping cavity is opened, and a door plate is hinged at the opening; the side wall of the trapping cavity and the door plate are provided with trapping holes, a trapping assembly is arranged in the trapping cavity, and a power grid is arranged on the periphery of the trapping assembly in a surrounding mode; a collecting net and a liquid storage box are sequentially arranged below the trapping assembly, and the top of the liquid storage box is provided with an opening; the inner wall of the trapping cavity is annularly provided with an internal liquid spraying and killing component which is positioned in the height range between the trapping component and the collecting net and is communicated with the liquid storage box through a liquid conveying pipe; the top of the upper base is rotationally connected with an external liquid spraying and killing component through a rotating structure, and a disease medium biological sensor is arranged on the side wall of the upper base. The application can effectively kill the trapped disease vector organisms, kill the carried viruses, and effectively kill the externally active disease vector organisms, thereby greatly improving the killing effect of the disease vector organisms.

Description

Disease medium biological killing device

Technical Field

The utility model relates to the field of disease medium biological control, in particular to a disease medium biological killing device.

Background

The disease-vector organism refers to an organism which can directly or indirectly transmit diseases, harm and threaten human health. The vector biological infectious diseases have the characteristics of quick transmission and easy epidemic, seriously threaten the physical health of people, and are particularly important for preventing and treating the vector organisms in a broad sense, wherein the vector organisms comprise vertebrates and invertebrates, the vertebrate vectors are mainly mice, and the invertebrate vectors are mainly mosquitoes, flies, cockroaches, fleas and the like.

The disease medium biological control device in the prior art mainly traps the disease medium organisms or sprays disinfectant in the area at regular time, on one hand, the disease medium organisms are easy to fly out from an inlet after being trapped, the trapping efficiency is low, and some trapping devices can kill the disease medium organisms through a power grid after trapping the disease medium organisms, but viruses carried by the body of the killed disease medium organisms are easy to mix into the air, so that the environment is influenced; on the other hand, the disinfectant can be sprayed regularly, so that the activity of the disease-related organisms can be inhibited in a short time, and the labor is consumed.

Disclosure of utility model

The present utility model has been made in view of the above problems, and it is an object of the present utility model to provide a disease-mediated biocidal apparatus that overcomes or at least partially solves the above problems.

In order to solve the problems, the utility model discloses a disease medium biological sterilization device, which comprises a trapping cavity and an upper base, wherein the upper base is arranged at the top of the trapping cavity, a moving mechanism is arranged at the bottom of the trapping cavity, one side of the trapping cavity is opened, and a door plate is hinged at the opening;

The side wall of the trapping cavity and the door plate are provided with trapping holes, a trapping assembly is arranged in the trapping cavity and detachably connected to the bottom of the upper base, a power grid is arranged on the periphery of the trapping assembly in a surrounding mode, and the power grid is fixed to the bottom of the upper base; the collecting net is detachably connected to the inner wall of the trapping cavity, the top of the liquid storage box is open, and a first compound disinfectant is stored in the liquid storage box; the inner wall of the trapping cavity is annularly provided with an internal liquid spraying and killing component, the internal liquid spraying and killing component is positioned in a height range between the trapping component and the collecting net, and the internal liquid spraying and killing component is communicated with the liquid storage box through a liquid conveying pipe;

The top of the upper base is rotationally connected with an external liquid spraying and killing component through a rotating structure, the external liquid spraying and killing component stores a second compound killing agent, and the first compound killing agent and the second compound killing agent both comprise allethrin and permethrin; the upper base is internally provided with a controller, the side wall of the upper base is provided with a disease medium biological sensor, and the external liquid spraying disinfection component and the disease medium biological sensor are respectively and electrically connected with the controller.

Further, the trapping assembly comprises a shell and a composite attractant, wherein the shell is of a net structure, and the composite attractant is arranged in the shell; the shell top opening, shell top opening inner wall is equipped with the internal thread, it is equipped with the connecting piece to go up the base bottom, the outer wall of connecting piece is equipped with the external screw thread, the internal thread with external screw thread looks adaptation.

Further, the length of the housing is greater than the length of the power grid such that the housing extends out of the bottom of the power grid.

Further, the internal liquid spraying and killing assembly comprises a strip-shaped fixing cavity, and a plurality of spray holes are formed in one side, facing the trapping assembly, of the strip-shaped fixing cavity along the length direction of the strip-shaped fixing cavity; the infusion tube is embedded in the inner wall space of the trapping cavity, one end of the infusion tube is communicated with the strip-shaped fixing cavity, and the other end of the infusion tube is communicated with the liquid storage box through a liquid pump.

Further, the rotating structure comprises a first rotating assembly and a second rotating assembly, the first rotating assembly comprises a first stepping motor and a U-shaped fixing piece, the first stepping motor is arranged in the upper base, the fixing piece is arranged at the top of the upper base, and the fixing piece is in transmission connection with an output shaft of the first stepping motor; the second rotating assembly comprises a second stepping motor and a U-shaped swinging piece, the fixing piece and the swinging piece are oppositely arranged, one end of the swinging piece is hinged with one end of the fixing piece, and the other end of the swinging piece is connected with the other end of the fixing piece through the second stepping motor in a rotating mode.

Further, the outside hydrojet disinfects subassembly and includes liquid storage tube, connecting pipe and atomizing nozzle, atomizing nozzle passes through the connecting pipe with the liquid storage tube is connected, the liquid storage tube with the swinging member is connected, the liquid filling hole has been seted up at liquid storage tube top to it is sealed through sealed lid.

Further, the trapping holes are a plurality of vertical strip holes which are arranged in parallel.

Further, the inner wall of the trapping cavity is provided with raised strips corresponding to the positions of the collecting nets, and the collecting nets are arranged on the raised strips.

Further, a liquid outlet hole is formed in the side wall of the liquid storage box.

Further, the disease medium biological sensor is a thermal infrared imager or/and a sound sensor.

In the embodiment of the application, the upper base is arranged at the top of the trapping cavity through the trapping cavity and the upper base, the bottom of the trapping cavity is provided with the moving mechanism, one side of the trapping cavity is opened, and the opening is hinged with the door plate; the side wall of the trapping cavity and the door plate are provided with trapping holes, a trapping assembly is arranged in the trapping cavity and detachably connected to the bottom of the upper base, a power grid is arranged on the periphery of the trapping assembly in a surrounding mode, and the power grid is fixed to the bottom of the upper base; the collecting net is detachably connected to the inner wall of the trapping cavity, the top of the liquid storage box is open, and a first compound disinfectant is stored in the liquid storage box; the inner wall of the trapping cavity is annularly provided with an internal liquid spraying and killing component, the internal liquid spraying and killing component is positioned in a height range between the trapping component and the collecting net, and the internal liquid spraying and killing component is communicated with the liquid storage box through a liquid conveying pipe; the top of the upper base is rotationally connected with an external liquid spraying and killing component through a rotating structure, the external liquid spraying and killing component stores a second compound killing agent, and the first compound killing agent and the second compound killing agent both comprise allethrin and permethrin; the upper base is internally provided with a controller, the side wall of the upper base is provided with a disease medium biological sensor, and the external liquid spraying disinfection component and the disease medium biological sensor are respectively and electrically connected with the controller. The device has the advantages that the disease medium organisms are trapped and enter the trapping cavity through the trapping assembly and the power grid, after the electric shock death, the disease medium organisms entering the trapping cavity can be effectively killed by spraying liquid and sterilizing the disease medium organisms through the internal spraying liquid sterilizing assembly and the first compound sterilizing agent in the falling process, the dead disease medium organisms are sterilized, the virus is prevented from entering the air to spread, and meanwhile, the disease medium organisms falling on the collecting network are convenient for post-treatment; the disease medium organisms moving outside the trapping cavity can be identified, sensed and subjected to liquid spraying sterilization through the disease medium biological sensor, the external liquid spraying sterilization component and the second composite sterilization agent, and the second composite sterilization agent kills the external disease medium organisms and simultaneously disinfects the environment; and the external liquid spraying and killing assembly can rotate at will through the rotating structure, so that the disease medium organisms can be killed accurately, and the disease medium organisms which do not enter the trapping cavity can be killed effectively. The application can effectively kill the trapped disease vector organisms, kill the carried viruses, and effectively kill the externally active disease vector organisms, disinfect the environment and greatly improve the disinfection effect of the disease vector organisms.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the description of the present application will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a disease medium biological sterilization device according to an embodiment of the present application;

Fig. 2 is a schematic diagram of an internal structure of a disease medium biological sterilization device according to an embodiment of the present application;

fig. 3 is a schematic view of the structure of a trap assembly provided by an embodiment of the present application;

fig. 4 is a front view of an external spray disinfection assembly provided in an embodiment of the present application.

Reference numerals illustrate:

100-trapping chamber, 110-door plate, 120-trapping hole, 130-moving mechanism, 200-upper base, 300-trapping component, 310-shell, 320-composite attractant, 410-electric network, 420-collecting network, 421-convex strip, 430-liquid storage box, 431-liquid outlet hole, 500-inner liquid spraying and sterilizing component, 510-strip-shaped fixing cavity, 511-spray hole, 600-outer liquid spraying and sterilizing component, 610-first stepping motor, 620-fixing piece, 630-second stepping motor, 640-swinging piece, 650-liquid storage barrel, 660-connecting pipe, 670-atomizing nozzle, 680-liquid injecting hole, 690-protecting cover, 700-controller and 800-disease biological sensor.

Detailed Description

In order that the manner in which the above recited objects, features and advantages of the present application are obtained will become more readily apparent, a more particular description of the application briefly described above will be rendered by reference to the appended drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-4, a schematic structural diagram of a disease vector biological sterilization device is shown, which may specifically include: the device comprises a trapping cavity 100 and an upper base 200, wherein the upper base 200 is arranged at the top of the trapping cavity 100, a moving mechanism 130 is arranged at the bottom of the trapping cavity 100, one side of the trapping cavity 100 is opened, and a door plate 110 is hinged at the opening;

The side wall of the trapping chamber 100 and the door plate 110 are both provided with trapping holes 120, a trapping assembly 300 is arranged in the trapping chamber 100, the trapping assembly 300 is detachably connected to the bottom of the upper base 200, a power grid 410 is arranged around the periphery of the trapping assembly 300, and the power grid 410 is fixed to the bottom of the upper base 200; a collecting net 420 and a liquid storage box 430 are sequentially arranged below the trapping assembly 300, the collecting net 420 is detachably connected to the inner wall of the trapping chamber 100, the top of the liquid storage box 430 is opened, and a first compound disinfectant is stored in the liquid storage box 430; an inner spray disinfection assembly 500 is arranged on the inner wall of the trapping chamber 100 in a ring manner, the inner spray disinfection assembly 500 is positioned in a height range between the trapping assembly 300 and the collecting net 420, and the inner spray disinfection assembly 500 is communicated with the liquid storage box 430 through a liquid conveying pipe;

The top of the upper base 200 is rotatably connected with an external liquid spraying and killing assembly 600 through a rotating structure, the external liquid spraying and killing assembly 600 stores a second compound killing agent, and the first compound killing agent and the second compound killing agent both comprise allethrin and permethrin; the controller 700 is arranged in the upper base 200, a disease medium biological sensor 800 is arranged on the side wall of the upper base 200, and the external liquid spraying and sterilizing component 600 and the disease medium biological sensor 800 are respectively and electrically connected with the controller 700.

In the embodiment of the application, through the trapping chamber 100 and the upper base 200, the upper base 200 is arranged at the top of the trapping chamber 100, the bottom of the trapping chamber 100 is provided with the moving mechanism 130, one side of the trapping chamber 100 is opened, and the door plate 110 is hinged at the opening; the side wall of the trapping chamber 100 and the door plate 110 are both provided with trapping holes 120, a trapping assembly 300 is arranged in the trapping chamber 100, the trapping assembly 300 is detachably connected to the bottom of the upper base 200, a power grid 410 is arranged around the periphery of the trapping assembly 300, and the power grid 410 is fixed to the bottom of the upper base 200; a collecting net 420 and a liquid storage box 430 are sequentially arranged below the trapping assembly 300, the collecting net 420 is detachably connected to the inner wall of the trapping chamber 100, the top of the liquid storage box 430 is opened, and a first compound disinfectant is stored in the liquid storage box 430; an inner spray disinfection assembly 500 is arranged on the inner wall of the trapping chamber 100 in a ring manner, the inner spray disinfection assembly 500 is positioned in a height range between the trapping assembly 300 and the collecting net 420, and the inner spray disinfection assembly 500 is communicated with the liquid storage box 430 through a liquid conveying pipe; the top of the upper base 200 is rotatably connected with an external liquid spraying and killing assembly 600 through a rotating structure, the external liquid spraying and killing assembly 600 stores a second compound killing agent, and the first compound killing agent and the second compound killing agent both comprise allethrin and permethrin; the controller 700 is arranged in the upper base 200, a disease medium biological sensor 800 is arranged on the side wall of the upper base 200, and the external liquid spraying and sterilizing component 600 and the disease medium biological sensor 800 are respectively and electrically connected with the controller 700. The sick organisms are trapped and enter the trapping chamber 100 through the trapping assembly 300 and the power grid 410, after electric shock death, the sick organisms entering the trapping chamber 100 can be effectively killed by spraying liquid and killing the sick organisms through the internal spraying liquid and killing assembly 500 and the first compound killing agent in the falling process, the dead sick organisms are sterilized, viruses are prevented from entering the air, and meanwhile, the sick organisms falling onto the collecting net 420 are convenient for post-treatment; the disease medium organisms moving outside the trapping chamber 100 can be identified, sensed and subjected to liquid spraying sterilization by the disease medium biological sensor 800, the external liquid spraying sterilization component 600 and the second composite sterilization agent, and the second composite sterilization agent can sterilize the environment while killing the external disease medium organisms; and the external liquid spraying and killing assembly 600 can rotate randomly through the rotating structure, so that the disease medium organisms can be killed accurately, and the disease medium organisms which do not enter the trapping cavity 100 can be killed effectively. The application can effectively kill the trapped disease vector organisms, kill the carried viruses, and effectively kill the externally active disease vector organisms, disinfect the environment and greatly improve the disinfection effect of the disease vector organisms.

Next, a disease-mediated biological elimination apparatus in the present exemplary embodiment will be further described.

In an embodiment of the present application, a moving mechanism 130 is disposed at the bottom of the trapping chamber 100, and the moving mechanism 130 enables the trapping chamber 100 to move; specifically, the moving mechanism 130 may be any moving mechanism in the prior art, which can drive the moving mechanism to walk and turn, for example, a moving mechanism of a sweeping robot, and the moving wheel is driven to walk and turn by a motor, and the specific structure is not limited in the present application. The utility model discloses a novel biological insect trap, including trap cavity 100, door plant 110, trap cavity 100's one side opening to the door plant 110 has been articulated in the opening part, trap cavity 100's lateral wall with trap hole 120 has all been seted up to door plant 110, be equipped with trap subassembly 300 in the trap cavity 100, trap subassembly 300 detachable connect in the bottom of upper base 200, trap cavity 100 can be opened or closed through setting up door plant 110, is convenient for change trap subassembly 300, maintains the trapping effect of sick living beings. A power grid 410 is arranged around the periphery of the trapping assembly 300, the power grid 410 is fixed at the bottom of the upper base 200, the power grid 410 is electrically connected with a controller 700 in the upper base 200, and the power grid 410 is used for killing the disease-causing organisms; a collecting net 420 and a liquid storage box 430 are sequentially arranged below the trapping assembly 300, the collecting net 420 is detachably connected to the inner wall of the trapping chamber 100, the top of the liquid storage box 430 is provided with an opening, when the disease medium organisms are knocked out to the trapping assembly 300 by the power grid 410, the dead disease medium organisms fall to the collecting net 420, and the collected disease medium organisms can be conveniently treated in a detachable connection mode; specifically, the inner wall of the trapping chamber 100 is provided with a protruding strip 421 at a position corresponding to the collecting net 420, the collecting net 420 is disposed on the protruding strip 421, when the collected disease medium organisms need to be treated and the collecting net 420 is cleaned, the door plate 110 is opened, the collecting net 420 is directly taken down, and after cleaning, the collecting net 420 is directly disposed on the protruding strip 421 to be fixed. An inner spray disinfection assembly 500 is annularly arranged on the inner wall of the trapping chamber 100, the inner spray disinfection assembly 500 is positioned in a height range between the trapping assembly 300 and the collecting net 420, the inner spray disinfection assembly 500 is communicated with the liquid storage box 430 through a liquid conveying pipe, and a first compound disinfection agent is stored in the liquid storage box 430; the first composite disinfectant is conveyed to the internal liquid spraying disinfectant component 500 through the liquid storage box 430, and the disinfectant is sprayed to the falling disease vector organisms through the internal liquid spraying disinfectant component 500 to kill viruses carried by the disease vector organisms, so that the viruses are prevented from being mixed into air for transmission after death, and the disinfectant effect is improved.

As an example, the trapping assembly 300 includes a housing 310 and a composite attractant 320, the housing 310 has a net structure, the composite attractant 320 is disposed in the housing 310, the composite attractant 320 is a composite pheromone lure core, and can be made of multiple attractants in a composite manner, so that multiple types of disease-causing organisms can be attracted at the same time, and trapped into the housing 310, and the net-shaped housing 310 does not block the emission of taste; the shell 310 top opening, shell 310 top opening inner wall is equipped with the internal thread, it is equipped with the connecting piece to go up base 200 bottom, the outer wall of connecting piece is equipped with the external screw thread, the internal screw thread with external screw thread looks adaptation, but quick assembly disassembly shell 310 through threaded connection's mode, the opening at shell 310 top is convenient for change compound attractant 320.

Further, the electric network 410, the housing 310 and the composite attractant 320 are tapered with diameters gradually decreasing downwards, so that the disease-causing organism can quickly fall down after being shocked, and is prevented from being blocked by the trapping assembly 300.

As an example, the length of the housing 310 is greater than the length of the power grid 410, so that the housing 310 extends out of the bottom of the power grid 410, so as to facilitate the disassembly and assembly of the trap assembly 300, and when the disassembly and assembly are required, the disassembly and assembly can be realized only by holding the extended part of the rotating housing 310.

As an example, the internal spray disinfection assembly 500 includes a strip-shaped fixing cavity 510, wherein a plurality of spray holes 511 are formed in the strip-shaped fixing cavity 510 along the length direction of the strip-shaped fixing cavity 510 towards one side of the trapping assembly 300, the strip-shaped fixing cavity 510 is annularly arranged on the inner wall of the trapping cavity 100, so that disinfectant is sprayed around the periphery of the trapping assembly 300, and all-around disinfection is performed on all-around pests; the infusion tube is embedded in the inner wall space of the trapping chamber 100, one end of the infusion tube is communicated with the strip-shaped fixing cavity 510, and the other end of the infusion tube is communicated with the liquid storage box 430 through a liquid pump. The disinfectant in the liquid storage box 430 is conveyed to the strip-shaped fixing cavity 510 through the liquid pump, and is sprayed out from the plurality of spray holes 511 of the strip-shaped fixing cavity 510 to disinfect and kill the disease-medium organisms falling down in the falling process and on the collecting net 420.

As an example, the trapping hole 120 is a plurality of vertical bar holes arranged in parallel. The vertical bar apertures facilitate the entry of disease-bearing organisms into the trap chamber 100.

As an example, the side wall of the liquid storage box 430 is provided with a liquid outlet 431. When the liquid storage box 430 is used, the liquid outlet hole 431 is in a closed state, the liquid outlet hole 431 is formed in the side wall of the liquid storage box 430, so that disinfectant in the liquid storage box 430 can be replaced, viruses of a disease agent organism can be mixed after the disinfectant is used for a long time, the door plate 110 is opened, the liquid outlet hole 431 is opened to discharge the disinfectant, and then clean disinfectant is injected from the top opening of the liquid storage box 430. The liquid storage box 430 can also be circularly flushed through the top opening and the liquid outlet hole 431.

In an embodiment of the present application, the top of the upper base 200 is rotatably connected with the external spray disinfection assembly 600 through a rotating structure, and preferably, the external spray disinfection assembly 600 is disposed at the edge of the upper base 200 near one side, so that the disinfection solution can be sprayed into the air to fall to the ground. The controller 700 is arranged in the upper base 200, a disease medium biological sensor 800 is arranged on the side wall of the upper base 200, and the external liquid spraying and sterilizing component 600 and the disease medium biological sensor 800 are respectively and electrically connected with the controller 700. When detecting that the outside of the trapping chamber 100 has the disease agent living beings active through the disease agent biological sensor 800, the external liquid spraying and sterilizing assembly 600 is driven to rotate to the target direction through the rotating structure to perform sterilization. Wherein, the controller 700 adopts a PLC programmable controller.

As an example, the disease media biosensor 800 is a thermal infrared imager or/and a sound sensor. The thermal infrared imager can image ambient infrared on the periphery, and when detecting the activities of the pests such as mosquitoes, flies or mice, signals are transmitted to the controller 700, the controller 700 can drive the rotating structure to drive the external liquid spraying and killing assembly 600 to rotate to the target direction to kill the mosquitoes, flies or mice. The sound sensor can detect the wing vibration sound of the fly insect vector organisms such as mosquitoes, flies and the like, or detect the creak sound emitted by mice, judge the approximate position of the mouse according to the sound, transmit the sound to the controller 700, and similarly, can drive the rotating structure to drive the external liquid spraying and sterilizing component 600 to rotate to the target direction to sterilize the external liquid spraying and sterilizing component. Meanwhile, the disease medium biological sensor 800 is electrically connected with the controller 700 of the moving mechanism 130, and drives the moving mechanism 130 to approach and rotate towards the target direction according to the position of the disease medium organism, so that the disinfection effect is improved.

As an example, the rotating structure includes a first rotating assembly and a second rotating assembly, the first rotating assembly includes a first stepper motor 610 and a U-shaped fixing member 620, the first stepper motor 610 is installed inside the upper base 200, the fixing member 620 is installed at the top of the upper base 200, the fixing member 620 is in transmission connection with an output shaft of the first stepper motor 610, and the fixing member 620 can be driven to rotate in a horizontal direction by the first stepper motor 610. The second rotating assembly includes a second stepper motor 630 and a U-shaped swinging member 640, the fixing member 620 is disposed opposite to the swinging member 640, one end of the swinging member 640 is hinged to one end of the fixing member 620, and one end of the swinging member 640 is rotatably connected to the other end of the fixing member 620 through the second stepper motor 630. Specifically, as shown in fig. 3, the stepper motor passes through the fixing member 620 to be connected with the swinging member 640, and is not connected with the fixing member 620, and the swinging member 640 is driven to rotate in a pitching manner by the rotation of the second stepper motor 630, so as to realize the rotation in the vertical direction. Namely, the external liquid spraying and killing assembly 600 can rotate in the horizontal direction and the vertical direction through the first rotating assembly and the second rotating assembly, when mice are detected to be on the ground, the mice are driven to swing downwards through the second rotating assembly, so that the disease-vector organisms on the ground can be killed, and when the disease-vector organisms are detected to be in a space above, the mice are driven to swing upwards through the first rotating assembly, so that the disease-vector organisms in the air can be killed.

As an example, the external spray disinfection assembly 600 includes a liquid storage tank 650, a connection pipe 660, and an atomization nozzle 670, the atomization nozzle 670 is connected to the liquid storage tank 650 through the connection pipe 660, a second composite disinfectant is stored in the liquid storage tank 650, and the second composite disinfectant in the liquid storage tank 650 is delivered to the atomization nozzle 670 through a micro pump, so that disinfection is sprayed outwards. The liquid storage barrel 650 is connected with the swinging member 640, a liquid injection hole 680 is formed in the top of the liquid storage barrel 650, the liquid storage barrel 650 is sealed by a sealing cover, and disinfectant can be injected into the liquid storage barrel 650 through the liquid injection hole 680. The fixing piece 620 horizontally rotates under the driving of the first stepping motor 610, drives the swinging piece 640 and the liquid storage barrel 650 to synchronously rotate, thereby driving the atomizing nozzle 670 to horizontally rotate, realizing spraying and killing in a horizontal range, and the swinging piece 640 is driven by the second stepping motor 630 to pitching and rotate, thereby driving the liquid storage barrel 650 and the atomizing nozzle 670 to synchronously perform pitching and swinging, and realizing spraying and killing in a height range. The first compound disinfectant and the second compound disinfectant both comprise allethrin and permethrin, and the pesticides with insecticidal and disinfectant effects can be treated once, so that two effects of disinfection and insecticidal are ensured; the allethrin and the permethrin are pseudopyrethrin pesticides, are almost insoluble in water, are easily dissolved in organic solvents such as alcohols and ethers, have low toxicity to higher animals, belong to nerve agents, have the effects of contact killing and stomach poisoning, have the effects of killing eggs and repelling, have no internal absorption and fumigation, and have little in vivo accumulation, so that the composite disinfectant comprising the allethrin and the permethrin has no irritation and toxicity to human bodies, is easy to operate by a spraying mode, and has simple equipment.

As an example, the outer housing of the outer spray disinfection assembly 600 is provided with a protective cover 690 that protects the outer spray disinfection assembly 600.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or terminal device that comprises the element.

The above description of the utility model provides a device for killing a disease-mediated organism, and specific examples are applied to the description of the principle and the implementation of the utility model, and the description of the examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present utility model, the present description should not be construed as limiting the present utility model in view of the above.

Claims

1. The device is characterized by comprising a trapping cavity and an upper base, wherein the upper base is arranged at the top of the trapping cavity, a moving mechanism is arranged at the bottom of the trapping cavity, one side of the trapping cavity is opened, and a door plate is hinged at the opening;

2. The vehicle-borne organism killing device of claim 1, wherein the trapping assembly comprises a housing and a composite attractant, the housing having a mesh structure, the composite attractant being disposed within the housing; the shell top opening, shell top opening inner wall is equipped with the internal thread, it is equipped with the connecting piece to go up the base bottom, the outer wall of connecting piece is equipped with the external screw thread, the internal thread with external screw thread looks adaptation.

3. The vehicle biocidal device of claim 2 wherein the length of the housing is greater than the length of the electrical grid such that the housing extends out of the bottom of the electrical grid.

4. The device for killing a disease medium organism according to claim 1, wherein the internal spray killing component comprises a strip-shaped fixing cavity, and a plurality of spray holes are formed in the strip-shaped fixing cavity along the length direction of the strip-shaped fixing cavity towards one side of the trapping component; the infusion tube is embedded in the inner wall space of the trapping cavity, one end of the infusion tube is communicated with the strip-shaped fixing cavity, and the other end of the infusion tube is communicated with the liquid storage box through a liquid pump.

5. The disease medium biological sterilization device according to claim 1, wherein the rotating structure comprises a first rotating assembly and a second rotating assembly, the first rotating assembly comprises a first stepping motor and a U-shaped fixing piece, the first stepping motor is arranged in the upper base, the fixing piece is arranged at the top of the upper base, and the fixing piece is in transmission connection with an output shaft of the first stepping motor; the second rotating assembly comprises a second stepping motor and a U-shaped swinging piece, the fixing piece and the swinging piece are oppositely arranged, one end of the swinging piece is hinged with one end of the fixing piece, and the other end of the swinging piece is connected with the other end of the fixing piece through the second stepping motor in a rotating mode.

6. The device of claim 5, wherein the external spray sterilization assembly comprises a liquid storage barrel, a connecting pipe and an atomizing nozzle, the atomizing nozzle is connected with the liquid storage barrel through the connecting pipe, the second compound sterilization agent is stored in the liquid storage barrel, the liquid storage barrel is connected with the swinging piece, and a liquid injection hole is formed in the top of the liquid storage barrel and is sealed through a sealing cover.

7. The vector biological sterilization device according to claim 1, wherein the trapping holes are a plurality of vertical bar holes arranged in parallel.

8. The device of claim 1, wherein the trap chamber has ribs on the inner wall corresponding to the collection net, and the collection net is disposed on the ribs.

9. The device for killing a disease vector organism according to claim 1, wherein the side wall of the liquid storage box is provided with a liquid outlet hole.

10. The disease vector biological sterilization device according to claim 1, wherein the disease vector biological sensor is a thermal infrared imager or/and a sound sensor.