CN215992457U - Deinsectization device of falling worm - Google Patents

Abstract

The utility model discloses a deinsectization and pest pouring device which comprises a power supply part, an information acquisition part, a control part, a deinsectization part, an air duct and a pest pouring part, wherein the power supply part is connected with the information acquisition part; one end of the information acquisition component is connected with the control component, and the other end of the information acquisition component is connected with the power supply component; the control component and the insect killing component are arranged below the power supply component; the control part is respectively connected with the insect killing part and the insect reversing part; the insect killing component is connected with the insect reversing component through the air duct. The device opens and closes according to work flow according to surrounding environment information control deinsectization device of falling, has certain intellectuality, and reducible artifical cost of falling the worm improves the work efficiency of prevention and cure insect pest.

Description

Deinsectization device of falling worm

Technical Field

The utility model relates to the technical field of pest control, in particular to a pest killing and pouring device.

Background

At present, chemical pesticides are mainly used for preventing and controlling agricultural pests, but with the long-term use of a large amount of pesticides, the pesticide resistance of the pests is stronger and stronger, the killing effect is poor, meanwhile, the pesticides have larger pollution to air, water and soil, can be enriched in crops and food, and cause harm to the health of animals and human bodies.

The phototaxis of insects is utilized, and the pests are trapped by light, so that the environment-friendly and efficient pest control technology is formed. But at present, current bugZapper intelligent degree is lower, can not be good accomplish to pour the insect corpse after the pest is killed, lead to needing man-hour to clear up for it from time to time, greatly increased artificial work load, reach the work efficiency that improves the prevention and cure pest.

Therefore, the problem that the technical personnel in the field need to solve is urgently needed to provide the insect killing and pouring device which has high intelligence degree and can complete the cleaning of insect corpses by controlling the switch of the insect pouring device according to the analysis information.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide the insect killing and pouring device which is simple in structure, safe, effective, reliable and simple and convenient to operate, and can collect environmental information, compare the environmental information with user input information and analyze the environmental information and control the opening and closing of the insect pouring device, so that corpses can be conveniently cleaned, the labor cost is saved, and the working efficiency of insect control is improved.

Based on the above purposes, the technical scheme provided by the utility model is as follows:

a deinsectization and pest pouring device comprises a power supply part, an information acquisition part, a control part, a deinsectization part, an air duct and a pest pouring part;

one end of the information acquisition component is connected with the control component, and the other end of the information acquisition component is connected with the power supply component;

the control component and the insect killing component are arranged below the power supply component;

the control part is respectively connected with the insect killing part and the insect reversing part;

the insect killing component is connected with the insect reversing component through the air duct.

Preferably, the power supply part comprises a storage battery, a solar panel and a load box;

the information acquisition part is respectively connected with the battery, the solar panel and the load box, and is used for acquiring current and voltage information of the battery, the solar panel and the load box and transmitting the current and voltage information to the control part.

Preferably, the method further comprises the following steps: the information acquisition part is used for acquiring rain control short circuit information, temperature information and time information and transmitting the information to the control part.

Preferably, the method further comprises the following steps: the information acquisition component is used for acquiring three-dimensional gravity information, GPS positioning information and alarm information and transmitting the information to the control component.

Preferably, the control component is specifically a PLC;

a network communication module is arranged in the PLC;

and the network communication module is used for acquiring user input information and comparing the user input information with the information acquired in the PLC.

Preferably, the insect killing component comprises a transparent baffle, an insect attracting light source and a heater;

the transparent baffle and the deinsectization bottom plate enclose a hollow inner cavity;

the insect attracting light source connected with the power supply part is arranged in the hollow inner cavity;

the deinsectization bottom plate is provided with the heater connected with the PLC.

Preferably, the pest pouring part comprises a driving part, a push-pull part and a pest pouring bottom plate;

the driving piece is connected with the push-pull piece;

the push-pull piece is connected with the insect-falling bottom plate;

the driving piece is used for driving the push-pull piece to drive the insect-pouring bottom plate to be opened or closed.

Preferably, the method further comprises the following steps: an alarm component;

the alarm component is connected with the PLC, and the PLC is used for controlling the alarm component to be turned on or turned off according to the alarm information.

Preferably, the insect-falling bottom plate is of a hexagonal structure.

One end of the information acquisition component is connected with the control component, and the other end of the information acquisition component is connected with the power supply component. The power supply part is used for supplying power to the information acquisition part and the control part, and the information acquisition part is used for collecting the information of the surrounding environment of the deinsectization and pest pouring device and feeding back the information of the surrounding environment to the control part for processing. A control component and a disinsection component are arranged below the power supply component; the control component is used for controlling the insect killing component to complete insect killing work according to the environmental information. The deinsectization part passes through the wind channel and is connected with the part of falling the worm, and the deinsectization work back is accomplished to the deinsectization part, and the insect corpse is by inside entering the part of falling the worm inside through the wind channel of deinsectization part, opens through the control part of falling the worm, and the insect corpse is poured, accomplishes the deinsectization and falls the worm process. The device opens and closes according to work flow according to surrounding environment information control deinsectization device of falling, has certain intellectuality, and reducible artifical cost of falling the worm improves the work efficiency of prevention and cure insect pest.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of an insect killing and pouring device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a pest exterminating and pouring device according to an embodiment of the present invention.

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.

Embodiments of the present invention are written in a progressive manner.

The embodiment of the utility model provides a deinsectization and insect pouring device. Among the main prior art of solving, bugZapper intelligent degree is lower, can not be good accomplish to pour the corpse of insects after the pest kills, lead to need the man-hour to clear up for it from time to time, greatly increased artificial work load, reach the technical problem who improves the work efficiency of prevention and cure insect pest.

A deinsectization and pest pouring device comprises a power supply part 1, an information acquisition part 2, a control part 3, a deinsectization part 4, an air duct and a pest pouring part 5;

one end of the information acquisition component 2 is connected with the control component 3, and the other end is connected with the power supply component 1;

a control part 3 and a disinsection part 4 are arranged below the power supply part 1;

the control part 3 is respectively connected with the insect killing part 4 and the insect pouring part 5;

the insect killing component 4 is connected with the insect pouring component 5 through an air duct.

One end of the information acquisition component is connected with the control component, and the other end of the information acquisition component is connected with the power supply component. The power supply part is used for supplying power to the information acquisition part and the control part, and the information acquisition part is used for collecting the information of the surrounding environment of the deinsectization and pest pouring device and feeding back the information of the surrounding environment to the control part for processing. A control component and a disinsection component are arranged below the power supply component; the control component is used for controlling the insect killing component to complete insect killing work according to the environmental information. The deinsectization part passes through the wind channel and is connected with the part of falling the worm, and the deinsectization work back is accomplished to the deinsectization part, and the insect corpse is by inside entering the part of falling the worm inside through the wind channel of deinsectization part, opens through the control part of falling the worm, and the insect corpse is poured, accomplishes the deinsectization and falls the worm process. The device opens and closes according to work flow according to surrounding environment information control deinsectization device of falling, has certain intellectuality, and reducible artifical cost of falling the worm improves the work efficiency of prevention and cure insect pest.

It should be noted that the connection may be a physical connection or an electrical signal connection, and the connection only needs to achieve the technical effect between the components.

Preferably, the power supply part 1 includes a storage battery, a solar panel, and a load box;

the information acquisition part 2 is respectively connected with the battery, the solar panel and the load box, and is used for acquiring current and voltage information of the battery, the solar panel and the load box and transmitting the current and voltage information to the control part 3.

In the actual application process, the power supply part can be provided with a storage battery, a solar panel and a load box; the information acquisition part is specifically a current and voltage detector which is respectively connected with the storage battery, the solar panel and the load box. The current and voltage detectors are used for detecting the stable output of the current and voltage in the storage battery, so that the normal work of power supply components is ensured; or detecting the stable output of the current and the voltage provided by the solar panel; or whether load balancing is performed in the load box. In the working process of the insect killing and pouring device, only one of the storage battery or the solar panel in the power supply part needs to be kept to work normally based on the consideration of saving cost, namely, when the storage battery is started, the current and the voltage are stably output, and the solar panel is closed; when the solar panel is started, the current and the voltage are stably output, and then the storage battery is closed. The load box is generally used for acquiring load detection information in the storage battery and the solar panel and controlling whether the working environment of the component is in a load balancing state.

Preferably, the method further comprises the following steps: the information acquisition part 2 is used for acquiring rain control short circuit information, temperature information and time information and transmitting the information to the control part 3.

In the practical application process, the information acquisition part is also provided with a humidity collector, a temperature collector and a clock signal collector, wherein the humidity collector is used for collecting the humidity of the working environment of the insect killing and pouring device, and when the humidity reaches a certain numerical value, the short circuit of the insect killing and pouring device can be caused when raining. The humidity collector collects air humidity data in a working period such as one month and transmits the data to the control part, so that the risk of short circuit in rainy days is prevented in advance. The normal work that can influence the deinsectization device of falling worm is crossed too high or low excessively to same temperature, sets up temperature collector and gathers duty cycle's temperature data to in transmitting to the control unit, take precautions against in advance because of the risk that the high or low device trouble that leads to of temperature. Because the pest control and reversing device does not need to be in a working state all the time, the pest control and reversing device can be adjusted according to the work and rest of pests with higher local occupation ratio. The clock collector can be used for collecting pest work and rest time information and sending the information to the control part, and the control part can set the working time of the pest killing and pouring device in advance according to the information.

Preferably, the method further comprises the following steps: the information acquisition component 2 is used for acquiring three-dimensional gravity information, GPS positioning information and alarm information and transmitting the information to the control component 3.

In the practical application process, the information acquisition part is further provided with a three-dimensional gravity information collector, a GPS positioning information collector and an alarm information collector, wherein the three-dimensional gravity information and the GPS positioning information are collected to determine the virtual position of the insect-killing and pest-pouring device, so that the insect-killing and pest-pouring device can be conveniently found and positioned. And the alarm information collector is used for collecting a series of information such as air humidity, temperature, power failure and the like, and transmitting the information which possibly causes the pest killing and pouring device not to work normally to the control component.

Preferably, the control means 3 are in particular a PLC;

a network communication module is arranged in the PLC;

the network communication module is used for acquiring user input information and comparing the user input information with information acquired in the PLC.

A Programmable Logic Controller (PLC), a digital operation Controller with a microprocessor for automatic control, which can load control instructions into a memory at any time for storage and execution. The programmable controller consists of functional units such as a CPU, an instruction and data memory, an input/output interface, a power supply, a digital-analog converter and the like. When the programmable logic controller is put into operation, the working process of the programmable logic controller is generally divided into three stages, namely, three stages of input sampling, user program execution and output refreshing. The completion of the above three phases is referred to as one scanning cycle. During the whole operation period, the CPU of the programmable logic controller repeatedly executes the three phases at a certain scanning speed.

In the actual application process, a network communication module can be arranged on a special function module in the PLC in the deinsectization and pest pouring device. The user compares the information with collected information by inputting relevant environmental information, such as local ecological environment, pest information, climate, temperature and the like, for preventing and controlling pests, and configures the PLC in the pest killing and pouring device according to the comparison result to meet the local pest killing requirement.

Preferably, the insect killing part 4 comprises a transparent baffle 41, an insect attracting light source 42 and a heater 43;

the transparent baffle 41 and the disinsection bottom plate enclose a hollow cavity;

an insect attracting light source 42 connected with the power supply part 1 is arranged in the hollow inner cavity;

the deinsectization bottom plate is provided with a heater 43 connected with the PLC.

In the practical application process, the deinsectization part is provided with a transparent baffle, a trap light source and a heater, the transparent baffle and the deinsectization bottom plate enclose a hollow inner cavity, the trap light source is arranged in the hollow inner cavity, and after the trap light source attracts pests to enter the hollow inner cavity, the PLC controls the heater on the deinsectization bottom plate to heat the hollow inner cavity. The transparent baffle can diffuse the light of the transparent light source, and the attraction is improved.

Preferably, the pest pouring part 5 comprises a driving part 51, a push-pull part 52 and a pest pouring bottom plate;

the driving piece 51 is connected with the push-pull piece 52;

the push-pull piece 52 is connected with the insect backing plate;

the driving member 51 is used for driving the push-pull member 52 to open or close the pest reversing bottom plate.

In the practical application process, the pest reversing component is provided with a driving piece, a push-pull rod and a pest reversing bottom plate, the push-pull piece is connected with the pest reversing bottom plate and the driving piece respectively, and the driving piece drives the push-pull piece to drive the pest reversing bottom plate to be opened or closed. The PLC is connected with a driving piece in the pest pouring component and is used for controlling the driving piece to be opened or closed. In the working process, after the insect killing part kills insects, dead insects fall onto the insect pouring bottom plate through the air duct, the PLC controls the driving piece to be started, the driving piece drives the push-pull piece to drive the insect pouring bottom plate to be started, and the dead insects are poured out; and after the insect pouring process is finished, the driving piece is closed to drive the insect pouring bottom plate to be closed.

Preferably, the method further comprises the following steps: an alarm component;

the alarm component is connected with the PLC, and the PLC is used for controlling the on or off of the alarm component according to the alarm information.

In the actual application process, still be equipped with alarm component, PLC controls opening or closing of alarm component according to the alarm information control that the information acquisition part gathered, reminds the manual work to inspect this deinsectization device of falling worm, the trouble of discharging.

Preferably, the insect-falling bottom plate is of a hexagonal structure.

In the practical application process, on the basis of firm and material-saving consideration, the insect-falling bottom plate is arranged to be of a hexagonal structure. Hexagonal (Hexagonal), a kind of polygon, refers to all polygons with six sides and six corners, and this structure has excellent geometrical mechanical properties. In nature, the molecular structures of benzene and graphite, such as tortoise shells, honeycombs and the like all present regular hexagon shapes.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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 apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The insect killing and pouring device provided by the utility model is described in detail above. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The deinsectization and pest pouring device is characterized by comprising a power supply part (1), an information acquisition part (2), a control part (3), a deinsectization part (4), an air duct and a pest pouring part (5);

one end of the information acquisition component (2) is connected with the control component (3), and the other end of the information acquisition component is connected with the power supply component (1);

the control component (3) and the insect killing component (4) are arranged below the power supply component (1);

the control part (3) is respectively connected with the insect killing part (4) and the insect pouring part (5);

the insect killing component (4) is connected with the insect reversing component (5) through the air duct.

2. A vermin exterminating and insect pouring means as set forth in claim 1, wherein the power source part (1) comprises a storage battery, a solar panel and a load box;

the information acquisition part (2) is respectively connected with the battery, the solar panel and the load box, and is used for acquiring current and voltage information of the battery, the solar panel and the load box and transmitting the current and voltage information to the control part (3).

3. The vermin exterminating and insect pouring apparatus as set forth in claim 2, further comprising: the information acquisition part (2) is used for acquiring rain control short circuit information, temperature information and time information and transmitting the information to the control part (3).

4. The vermin exterminating and insect pouring apparatus as set forth in claim 3, further comprising: the information acquisition component (2) is used for acquiring three-dimensional gravity information, GPS positioning information and alarm information and transmitting the information to the control component (3).

5. A deinsectization and pest pouring device according to claim 4, characterized in that the control part (3) is a PLC in particular;

a network communication module is arranged in the PLC;

and the network communication module is used for acquiring user input information and comparing the user input information with the information acquired in the PLC.

6. A vermin exterminating and pouring device as set forth in claim 5, wherein the vermin exterminating part (4) comprises a transparent baffle (41), an insect attracting light source (42) and a heater (43);

the transparent baffle (41) and the deinsectization bottom plate enclose a hollow inner cavity;

the insect attracting light source (42) connected with the power supply component (1) is arranged in the hollow inner cavity;

the deinsectization bottom plate is provided with the heater (43) connected with the PLC.

7. A vermin exterminating device as set forth in claim 6, wherein the vermin exterminating means (5) comprises a driving member (51), a push-pull member (52) and a vermin exterminating plate;

the driving piece (51) is connected with the push-pull piece (52);

the push-pull piece (52) is connected with the insect-falling bottom plate;

the driving piece (51) is used for driving the push-pull piece (52) to drive the pest reversing bottom plate to open or close.

8. The vermin exterminating and insect pouring apparatus as set forth in claim 7, further comprising: an alarm component;

the alarm component is connected with the PLC, and the PLC is used for controlling the alarm component to be turned on or turned off according to the alarm information.

9. The insect exterminating and pouring device as set forth in claim 8 wherein the insect exterminating base plate is embodied in a hexagonal structure.

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