CN113080165A

CN113080165A - Dry-wet mixing deinsectization device

Info

Publication number: CN113080165A
Application number: CN202110387160.6A
Authority: CN
Inventors: 陈海飞; 王韵杰; 黄华龙; 倪博; 刘艳艳; 杨慧涵; 于海龙; 朱宝忠
Original assignee: Changzhou University
Current assignee: Changzhou University
Priority date: 2021-04-08
Filing date: 2021-04-08
Publication date: 2021-07-09
Anticipated expiration: 2041-04-08
Also published as: CN113080165B

Abstract

The invention discloses a dry-wet mixed deinsectization device which is characterized in that the output end of a gas collection device (2) is communicated with the input end of an atomizing nozzle device (8), the output end of a water storage device (3) is communicated with the input end of the atomizing nozzle device (8), the atomizing nozzle device (8) extends into a channel (5), and one end of a high-temperature device is positioned in the channel (5); the gas collecting device (2), the water storage device (3), the high-temperature device and the atomizing nozzle device (8) are electrically connected with the deinsectization energy supply system (4), and the gas collecting device (2), the water storage device (3), the high-temperature device and the atomizing nozzle device (8) are electrically connected with the controller. Mixing water and carbon dioxide gas, and spraying out from the atomizing nozzle to attract mosquitoes, dissipate heat and reduce temperature; when the water in the local water supply tank is insufficient, the water pump pumps water from the underground water tank for supplement, and when the pressure sensor displays that the pressure in the gas storage tank is insufficient, the air pump works to suck carbon dioxide gas from the cellar through the gas pipeline for supplement.

Description

Dry-wet mixing deinsectization device

Technical Field

The invention relates to a dry-wet mixing deinsectization device, and belongs to the technical field of deinsectization.

Background

Because the environment is severe day by day, mosquitoes breed more and more, evolution and variation are faster and faster, particularly in rural areas of villages and towns, due to large vegetation and crop coverage, good breeding habitat is provided for mosquitoes, and ordinary pest killing equipment cannot meet the requirements of times. Furthermore, the carbon dioxide content in the cellar is saturated and supersaturated for most of the time, and if this excess carbon dioxide is not discharged or utilized in a timely manner, it can pose a safety problem for the person or other living being entering the cellar. Most mosquitoes have the characteristic of tending to carbon dioxide.

The insect killing system for killing the mosquitoes by using the aromatic agent capable of attracting the mosquitoes is one of important appliances for preventing and controlling agricultural pests in China because the system can be acted for a long time and is more energy-saving and environment-friendly than the traditional method for spraying liquid medicine and burning mosquito-repellent incense. The traditional insect killing system has the advantages of single function, energy consumption, low insect killing performance, inconvenience in actual use, high cost and easiness in causing waterlogging in the field in rainy days.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and aims to overcome the defects of single function, energy consumption, low disinfestation performance, inconvenience in practical use, high cost and easiness in causing waterlogging in the field in rainy days of the traditional disinfestation system. The spraying object is the atomized substance mixed by carbon dioxide and water, so that the device not only can attract mosquitoes, but also can be in large-area contact with plants to exchange heat, thereby reducing the temperature around the plants, enabling the plants to grow better and protecting the environment; the solar energy is used for generating electricity, so that energy can be saved to the greatest extent, and emission pollution is reduced; in addition, the device has the water storage function, can adjust the flood problem in time in rainy day.

In order to achieve the purpose, the invention provides a dry-wet mixed deinsectization device which comprises a controller, a gas collecting device, a water storage device, a deinsectization energy supply system, a high-temperature device, a channel and an atomization nozzle device, wherein the gas collecting device is used for storing and absorbing mosquito substances; the gas collecting device, the water storage device, the high-temperature device and the atomizing nozzle device are electrically connected with the deinsectization energy supply system, and the gas collecting device, the water storage device, the high-temperature device and the atomizing nozzle device are electrically connected with the controller.

Preferably, the gas collecting device comprises a gas storage tank, a gas conveying pipeline and a valve, wherein a gas outlet of the gas storage tank is communicated with a gas inlet of the gas conveying pipeline, a gas outlet of the gas conveying pipeline is communicated with the atomizing nozzle device positioned in the channel, the valve is installed on the gas conveying pipeline, the valve is electrically connected with the controller, and the mosquito attracting substance stored in the gas collecting device is carbon dioxide or gas with aromatic odor.

Preferentially, the gas collecting device still includes cellar for storing things, gas pipeline, air pump, gas injection pipeline and switch, and the air pump input passes through gas pipeline intercommunication cellar for storing things, and the air pump output passes through gas injection pipeline intercommunication gas storage tank, and the switch is installed on the gas injection pipeline, and the cellar for storing things is the excavation in the below ground storage room.

Preferentially, the water storage device comprises an overground water tank, a second water pump and a water pipeline, the overground water tank is communicated with the atomizing nozzle device through the water pipeline, the second water pump is installed on the water pipeline, and the second water pump is electrically connected with the controller and the deinsectization energy supply system.

Preferentially, water storage facilities still includes a water tank, a water pump, a water pipeling, water pipeling and the mouth of catchmenting, and the water tank passes through water pipeling intercommunication water tank on the ground, and a water pump is installed on the water pipeling, and the mouth of catchmenting is seted up subaerial, and the mouth of catchmenting passes through water pipeling intercommunication water tank, a water pump electric connection director and deinsectization energy supply system.

Preferentially, high temperature device includes the heat transfer stick, and heat transfer stick fixed connection deinsectization energy supply system, heat transfer stick are heat conduction material, and the heat transfer stick is at least partly stretched into in the passageway.

Preferably, the air storage tank comprises a pressure sensor and a temperature sensor, the pressure sensor and the temperature sensor are fixedly arranged in the air storage tank, and the pressure sensor and the temperature sensor are electrically connected with the controller.

Preferentially, the passageway includes trematode pump and framework, sets up at least one subchannel in the framework, and the trematode pump sets up in the subchannel, and trematode pump electricity connection controller and deinsectization energy supply system.

Preferably, the atomizing nozzle device comprises an atomizing nozzle, the gas outlet of the gas conveying pipeline is communicated with the atomizing nozzle, the overground water tank is communicated with the atomizing nozzle through a water pipeline bb, and the atomizing nozzle is positioned at a lower air inlet of the insect sucking pump.

Preferentially, deinsectization energy supply system includes solar panel, photoelectric inverter, U type solar panel and battery, and solar panel, photoelectric inverter and battery electricity in proper order are connected, and U type solar panel fixed mounting is on solar panel, heat transmission stick fixed connection solar panel.

The invention achieves the following beneficial effects:

the device is a disinsection device based on solar energy and by means of carbon dioxide atomization gas, when the whole disinsection device works, the U-shaped light-gathering plate positioned at the top end converts the solar energy irradiated on the U-shaped light-gathering plate into electric energy and heat, the electric energy is transmitted to each part for use, the redundant part can be stored by a storage battery, and the heat generated by the redundant part is transmitted to a high-temperature channel through a heat transmission rod positioned at the bottom to kill mosquitoes in the high-temperature channel; the water in the overground water tank is conveyed to the gas-liquid mixing chamber on the right side through a pipeline, is mixed with the carbon dioxide gas conveyed from the gas storage chamber and is finally sprayed out through the atomizing nozzle, so that on one hand, mosquitoes can be attracted, and on the other hand, the effects of heat dissipation and temperature reduction can be achieved; when the water in the local water supply tank is insufficient, the water pump works to pump water from the underground water tank for supplement, and when the pressure sensor displays that the pressure in the gas storage tank is insufficient, namely the gas in the gas storage tank is insufficient, the air pump works to pump carbon dioxide gas from the cellar through the gas pipeline for supplement; when rainy weather occurs, the pipeline laid underground can collect rainwater to supplement the shortage of the underground water tank. The device protects crops in many-sided high efficiency to effectively utilize sunlight heat energy, the cost is reduced, have convenient to use, practicality height, energy consumption low grade characteristics.

Drawings

FIG. 1 is a cross-sectional view of the present device;

FIG. 2 is a partial cross-sectional view of the present device;

FIG. 3 is a schematic diagram of light refraction and heat transfer of a U-shaped light-gathering plate in the device;

fig. 4 is a circuit diagram of the present apparatus.

Reference numeral, 1-cellar; 2-a gas collection device; 3, a water storage device; 4-disinsection energy supply system; 5-a channel; 6-a trematode pump; 7-a scaffold; 8-an atomizing nozzle device; 21-a gas pipeline; 22-an air pump; 23-a switch; 24-a gas storage tank; 25-a pressure sensor; 26-a valve; 27-a temperature sensor; 31-a first water pump; 32-above ground water tank; 33-underground water tank; 34-a water pump II; 35-a water collecting port; 36 a-water conduit a; 36 b-water conduit b; 36 c-water conduit c; a 41-U shaped light gathering plate; 42-a storage battery; 43-heat transfer rod; 44-a solar panel; 81-gas-liquid mixing chamber; 82-atomizing nozzle.

Detailed Description

The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In addition, if the description of "a", "an", "two", etc. is referred to in this disclosure, it is used for descriptive purposes only and not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "a", "an", or "two" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

A dry-wet mixed deinsectization device comprises a controller, a gas collecting device 2 used for storing and absorbing mosquito substances, a water storage device 3, a deinsectization energy supply system 4 used for supplying electric energy, a high-temperature device, a channel 5 and an atomization nozzle device 8, wherein the output end of the gas collecting device 2 is communicated with the input end of the atomization nozzle device 8, the output end of the water storage device 3 is communicated with the input end of the atomization nozzle device 8, the atomization nozzle device 8 extends into the channel 5, and one end of the high-temperature device is positioned in the channel 5; the gas collecting device 2, the water storage device 3, the high-temperature device and the atomizing nozzle device 8 are electrically connected with the deinsectization energy supply system 4, and the gas collecting device 2, the water storage device 3, the high-temperature device and the atomizing nozzle device 8 are electrically connected with the controller.

Further, gas collection device 2 includes gas storage tank 24 in this embodiment, gas transmission pipeline and valve 26, gas storage tank 24 gas outlet intercommunication gas transmission pipeline air inlet, gas transmission pipeline gas outlet intercommunication is located the atomizing nozzle device 8 in passageway 5, valve 26 is installed on gas transmission pipeline, valve 26 electricity connection controller, the mosquito substance of attracting that stores up in the gas collection device 2 is carbon dioxide or has the gas of aromatic smell for carry the gas of attracting the mosquito to passageway 5 through atomizing nozzle device 8, thereby improve the insecticidal efficiency of this device.

Further, gas collection device 2 still includes cellar for storing things 1 in this embodiment, gas pipeline 21, air pump 22, gas injection pipeline and switch 23, the air pump 22 input passes through gas pipeline 21 intercommunication cellar for storing things 1, the air pump 22 output passes through gas injection pipeline intercommunication gas storage tank 24, switch 23 installs on the gas injection pipeline, cellar for storing things 1 is the excavation in the below ground, store the material that attracts the mosquito in cellar for storing things 1, be convenient for in time to the delivered gas in the gas storage tank 24, be favorable to prolonging the operating duration of this device, need not the manual work and last for the water tank additional material on the ground.

Further, the water storage device 3 in this embodiment includes the above-ground water tank 32, the second water pump 34 and the water pipeline b36b, the above-ground water tank 32 is communicated with the atomizing nozzle device 8 through the water pipeline b36b, the second water pump 34 is installed on the water pipeline b36b, the second water pump 34 is electrically connected with the controller and the disinsection energy supply system 4, water or other disinsection solution is stored in the above-ground water tank 32, the above-ground water tank 32 conveys atomized liquid through the atomizing nozzle device 8, the disinsection area is increased, the disinsection range of the device is increased, and the device is more practical.

Further, in the present embodiment, the water storage device 3 further includes an underground water tank 33, a first water pump 31, a water pipeline a36a, a water pipeline c36c and a water collection port 35, the underground water tank 33 is communicated with the above-ground water tank 32 through a water pipeline a36a, the first water pump 31 is installed on the water pipeline a36a, the water collection port 35 is opened on the ground, the water collection port 35 is communicated with the underground water tank 33 through a water pipeline c36c, and the first water pump 31 is electrically connected to the controller and the energy supply system 4 for killing insects. The underground water tank 33 stores water or other insecticidal solutions for timely supplementing liquid in the overground water tank, so that the working time of the device can be prolonged, the underground water tank does not need to be manually and continuously supplemented with liquid for the overground water tank, and the underground water tank can maintain the atomization state at a lower temperature all the time, so that the underground water tank is convenient to use.

Further, high temperature equipment includes heat transfer stick 43 in this embodiment, and heat transfer stick 43 fixed connection deinsectization energy supply system 4, and heat transfer stick 43 is heat conduction material, and heat transfer stick 43 at least part stretches into in the passageway 5, and heat transfer stick 43 kills the mosquito high temperature heating in the passageway, has improved the insecticidal efficiency of this device.

Further, in the embodiment, the pressure sensor 25 and the temperature sensor 27 are included, the pressure sensor 25 and the temperature sensor 27 are fixedly arranged in the gas storage box 24, the pressure sensor 25 and the temperature sensor 27 are electrically connected with the controller, the pressure sensor 25 detects the pressure in the gas storage box, the cellar sends gas into the gas storage box when the pressure is smaller than a set value, and the temperature sensor 27 monitors the temperature in the gas storage box.

Further, passageway 5 includes trematode pump 6 and framework in this embodiment, sets up at least one subchannel in the framework, and trematode pump 6 sets up in the subchannel, and 6 electric connection director of trematode pump and deinsectization energy supply system 4, and trematode pump 6 is all adsorbed near the mosquito in the passageway, and 8 concentrated insecticidal of atomizing nozzle device of being convenient for have improved the work efficiency of this device.

Further, the atomizing nozzle device 8 in the present embodiment includes an atomizing nozzle 82, the air outlet of the air delivery pipeline is communicated with the atomizing nozzle 82, the above-ground water tank 32 is communicated with the atomizing nozzle 82 through the water pipeline b36b, the atomizing nozzle 82 is located at the lower air outlet of the insect suction pump 6, the atomizing nozzle 82 mixes water or other insecticidal liquid with the substance for attracting mosquitoes, the insecticidal area of the atomized liquid is enlarged, and the working efficiency of the device is improved.

Further, deinsectization energy supply system 4 includes solar panel 44, photoelectric inverter, U type solar panel 41 and battery 42 in this embodiment, and solar panel 44, photoelectric inverter and battery 42 electricity in proper order connect, and U type solar panel 41 fixed mounting is on solar panel, and heat transmission stick 43 fixed connection solar panel, solar energy power supply are favorable to this device to continue work.

The solar panel 44 is a triple junction gallium arsenide cell and the heat transfer rod 43 is a heating wire. The frame body is in a cuboid shape or any other shape. The U-shaped condensing plate 41 is a U-shaped plate that reflects light. The heat transfer rod 43 is metal.

The air storage tank 24, the air delivery pipeline, the valve 26, the air pipeline 21, the air pump 22, the air injection pipeline, the switch 23, the ground water tank 32, the second water pump 34, the water pipeline b36b, the underground water tank 33, the first water pump 31, the water pipeline a36a, the water pipeline c36c, the water collecting port 35, the pressure sensor 25, the temperature sensor 27, the insect suction pump 6, the atomizing nozzle 82, the solar panel 44, the photoelectric inverter and the storage battery 42 are many in types which can be adopted in the prior art, and a person skilled in the art can select a proper type according to actual needs.

When the whole insect killing device works, the U-shaped light-gathering plate at the top end converts solar energy into electric energy and heat, the electric energy is transmitted to equipment for use, and the heat generated by the electric energy is transmitted to the high-temperature channel through the heat transmission rod at the bottom to kill mosquitoes in the high-temperature channel; the water in the ground water tank is conveyed to the gas-liquid mixing chamber on the right side through a pipeline b, is mixed with the gas sent by the gas storage chamber and is finally sprayed out through the atomizing nozzle; when the water in the local water supply tank is insufficient, the water pump works to pump water in the underground water tank for supplement, and when the pressure sensor displays that the pressure in the gas storage tank is insufficient, namely the gas in the gas storage tank is insufficient, the air pump works to suck redundant carbon dioxide gas from the cellar through the gas pipeline for supplement. When rainy weather occurs, the water collecting port paved under the ground collects water through the pipeline c to supplement the underground water tank. The solar energy and water heater can protect crops efficiently in many aspects, effectively utilizes sunlight heat energy, reduces cost, and has the characteristics of convenience in use, high practicability, low energy consumption and the like.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. A dry-wet mixed deinsectization device is characterized by comprising a controller, a gas collection device (2) for storing and absorbing mosquito substances, a water storage device (3), a deinsectization energy supply system (4) for providing electric energy, a high-temperature device, a channel (5) and an atomization nozzle device (8), wherein the output end of the gas collection device (2) is communicated with the input end of the atomization nozzle device (8), the output end of the water storage device (3) is communicated with the input end of the atomization nozzle device (8), the atomization nozzle device (8) extends into the channel (5), and one end of the high-temperature device is positioned in the channel (5); the gas collecting device (2), the water storage device (3), the high-temperature device and the atomizing nozzle device (8) are electrically connected with the deinsectization energy supply system (4), and the gas collecting device (2), the water storage device (3), the high-temperature device and the atomizing nozzle device (8) are electrically connected with the controller.

2. The dry-wet mixed insect killer according to claim 1, wherein the gas collecting device (2) comprises a gas storage tank (24), a gas conveying pipeline and a valve (26), wherein a gas outlet of the gas storage tank (24) is communicated with a gas inlet of the gas conveying pipeline, a gas outlet of the gas conveying pipeline is communicated with the atomizing nozzle device (8) positioned in the channel (5), the valve (26) is installed on the gas conveying pipeline, the valve (26) is electrically connected with the controller, and the mosquito attracting substance stored in the gas collecting device (2) is carbon dioxide or gas with aromatic odor.

3. The dry-wet mixed deinsectization device of claim 2, wherein the gas collection device (2) further comprises a cellar (1), a gas pipeline (21), an air pump (22), a gas injection pipeline and a switch (23), the input end of the air pump (22) is communicated with the cellar (1) through the gas pipeline (21), the output end of the air pump (22) is communicated with the gas storage tank (24) through the gas injection pipeline, the switch (23) is installed on the gas injection pipeline, and the cellar (1) is a storage chamber excavated below the ground.

4. A wet and dry mixed vermin exterminating apparatus according to claim 2, wherein the water storing means (3) comprises an above-ground water tank (32), a second water pump (34) and a water pipe b (36 b), the above-ground water tank (32) is communicated with the atomizing nozzle means (8) through the water pipe b (36 b), the second water pump (34) is installed on the water pipe b (36 b), and the second water pump (34) is electrically connected with the controller and the vermin exterminating power supply system (4).

5. The dry-wet mixed deinsectization device of claim 4, wherein the water storage device (3) further comprises an underground water tank (33), a first water pump (31), a water pipeline a (36 a), a water pipeline c (36 c) and a water collection port (35), the underground water tank (33) is communicated with the above-ground water tank (32) through the water pipeline a (36 a), the first water pump (31) is installed on the water pipeline a (36 a), the water collection port (35) is formed in the ground, the water collection port (35) is communicated with the underground water tank (33) through the water pipeline c (36 c), and the first water pump (31) is electrically connected with the controller and the deinsectization energy supply system (4).

6. A mixed dry and wet insect killer according to claim 1, wherein the high temperature means comprises a heat transfer rod (43), the heat transfer rod (43) is fixedly connected with the insect-killing power supply system (4), the heat transfer rod (43) is made of heat conductive material, and at least a part of the heat transfer rod (43) is extended into the channel (5).

7. A dry and wet mixing insect killer as claimed in claim 1, characterized in that it comprises a pressure sensor (25) and a temperature sensor (27), the pressure sensor (25) and the temperature sensor (27) are fixedly arranged in the air storage tank (24), and the pressure sensor (25) and the temperature sensor (27) are electrically connected with the controller.

8. A wet and dry mixing insect killer according to claim 4, wherein the channel (5) comprises a sucking insect pump (6) and a frame body, at least one sub-channel is arranged in the frame body, the sucking insect pump (6) is arranged in the sub-channel, and the sucking insect pump (6) is electrically connected with the controller and the insect killing power supply system (4).

9. A wet and dry mixing insect killer as claimed in claim 8, wherein the atomizing nozzle device (8) comprises an atomizing nozzle (82), the air outlet of the air delivery pipe is communicated with the atomizing nozzle (82), the above-ground water tank (32) is communicated with the atomizing nozzle (82) through the water pipe b (36 b), and the atomizing nozzle (82) is positioned at the lower air inlet of the insect suction pump (6).

10. A dry-wet hybrid disinfestation device according to claim 6, wherein the disinfestation energy supply system (4) comprises a solar panel (44), a photoelectric inverter, a U-shaped light-gathering plate (41) and a storage battery (42), the solar panel (44), the photoelectric inverter and the storage battery (42) are electrically connected in sequence, the U-shaped light-gathering plate (41) is fixedly arranged on the solar panel, and the heat transmission rod (43) is fixedly connected with the solar panel (44).