CN114467887A

CN114467887A - Harmful insect trapping device for forestry management

Info

Publication number: CN114467887A
Application number: CN202210149761.8A
Authority: CN
Inventors: 贾秋红; 张小志; 冯海昌; 李娜; 孔新旗; 叶红; 周圆; 吴伟丽; 谢健全; 姚利萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-05-13

Abstract

The invention provides a harmful insect trapping device for forestry management, which comprises a primary pest treatment unit and a secondary pest treatment unit, wherein the primary pest treatment unit is arranged in an upper barrel and is used for electrically shocking pests, the secondary pest treatment unit is arranged in a lower barrel and is used for crushing pest residual bodies, two ends of the upper barrel are both provided with openings, the top end of the lower barrel is provided with an opening, the lower barrel is sleeved at the bottom end of the upper barrel through threads and is communicated with the upper barrel, so that the problems that in the prior art, the hot drying treatment device, the irradiation treatment device and the microwave treatment device are high in cost and poor in flowability, the pest residual bodies cannot be further treated, the working strength of workers is high, the manufacturing cost of the pest killing device is reduced, the device is good in flowability, and the device is convenient to transfer and reuse, after the residual pest bodies are crushed, the cleaning of the interior of the pest killing device is more convenient, and the operation burden of workers is reduced.

Description

Harmful insect trapping device for forestry management

Technical Field

The invention belongs to the technical field of forestry management, and particularly relates to a harmful insect trapping device for forestry management.

Background

Forest pests have two attributes, namely, the nature attribute, that is, the forest pests can not grow normally or even die by directly eating roots, stems, leaves, flowers, fruits and seeds of the forest trees or absorbing nutrition from the organs and tissues of the forest trees in a certain way, namely, certain damage is caused to the forest trees. Such organisms are said to be very numerous, because the forest is taken as an autotroph, solar energy is fixed through photosynthesis, organic matters are manufactured, and are the foundation stone existing in many other heterotrophs, and the heterotrophs with various quantities need to obtain nutrition through harming the forest to reproduce and thrive, which is an ecological phenomenon in the natural world, and people compete to live according to the ecological principle of 'physical competition and fittest survival'; the other attribute is social attribute, and the harm caused by the harmful organisms is the harm to woods related to human benefits, and the harm caused by the harmful organisms causes benefit loss to human beings, for example, pathogens and pests cause scabs and insect spots on fruits, the harm is not large and can be tolerated for the growth and reproduction of the fruits, but the harm is harmful for human beings because the harm affects the beauty, the sale and the intolerability. Such as Ceriporia alba and Lacca, which are harmful to the host plant by sucking the host plant, but their secretions Ceriporia alba and Lacca are useful resources for human beings, so that these two insects are determined as beneficial insects.

In forestry management process, present multi-purpose three lures technique and heat to dry by the fire and handle, the mode of irradiation treatment and microwave treatment is handled harmful insect, but the construction cost of heat to dry by the fire and handle, irradiation treatment and microwave treatment is higher, and mobility is relatively poor, can't be quick with the device transfer, and when the incomplete trunk of collecting the pest, directly with the accumulational mode of pest trunk, very easily piled up by the trunk of pest in the device for the staff need often clear up the incomplete trunk of pest in the device, and working strength is great.

Disclosure of Invention

The invention aims to provide a harmful insect trapping device for forestry management, which aims to solve the problems that in the prior art, a hot drying treatment device, an irradiation treatment device and a microwave treatment device are high in manufacturing cost and poor in liquidity, and cannot further treat the residual body of pests, so that the working intensity of workers is high.

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

the utility model provides a pest trapping device is used in forestry management, includes one-level pest processing unit and second grade pest processing unit, one-level pest processing unit sets up in last bucket, one-level pest processing unit is used for the electric shock pest, second grade pest processing unit sets up in the bucket down, second grade pest processing unit is used for smashing the incomplete trunk of pest, the both ends of going up the bucket are the opening, the top opening of bucket down, the bucket passes through the threaded sleeve and establishes the bottom of going up the bucket and with go up the bucket intercommunication.

As a further description of the above technical solution:

the one-level pest processing unit includes deinsectization ring and A pivot, the deinsectization ring pass through the A pivot with the lateral wall of last bucket rotates to be connected, the deinsectization ring is connected with power supply structure, the A pivot is connected with the output of A motor, the A motor is used for the rotation the deinsectization ring, power supply structure be used for to the deinsectization ring power supply.

As a further description of the above technical solution:

the radial of deinsectization ring is provided with two the A pivot, two A pivot symmetry sets up, the A pivot with the lateral wall of upper barrel rotates to be connected, the deinsectization ring with the upper barrel coaxial line sets up.

As a further description of the above technical solution:

the deinsectization ring comprises an insulation ring and a metal net, wherein the metal net is fixed in the insulation ring, and the power inlet end of the metal net is connected with the power transmission end of the power supply structure.

As a further description of the above technical solution:

the power supply unit includes battery, time controller and solar photovoltaic cell panel, the periphery of going up the bucket is provided with the install bin, the battery with time controller all sets up in the install bin, time controller is used for control the battery is right the power supply time of deinsectization ring, solar photovoltaic cell panel sets up the top of going up the bucket, solar photovoltaic cell panel is used for giving the battery charges, the A motor sets up in the install bin, the battery still be used for giving the A motor power supply.

As a further description of the above technical solution:

the upper barrel comprises supporting columns and a rain-proof cap, the supporting columns are vertically fixed to the top end of the upper barrel, the rain-proof cap is fixed to the upper portion of the upper barrel through the supporting columns, and the solar photovoltaic cell panel is arranged on the surface of the rain-proof cap.

As a further description of the above technical solution:

the secondary pest treatment unit comprises a crushing mechanism and a driving mechanism, the crushing mechanism is arranged in the lower barrel, the output end of the driving mechanism is connected with the input end of the crushing mechanism, and the driving mechanism is used for driving the crushing mechanism to rotate in the lower barrel.

As a further description of the above technical solution:

the crushing mechanism comprises a B impeller and a central rotating shaft, a partition plate is arranged in the lower barrel and divides the lower barrel into an upper layer and a lower layer, the central rotating shaft is vertical and penetrates through the upper surface of the partition plate, the central rotating shaft is connected with the partition plate in a rotating mode, the B impeller is installed on the central rotating shaft, and the other end of the central rotating shaft is connected with the output end of the driving mechanism.

As a further description of the above technical solution:

actuating mechanism includes A impeller, hollow pole and hollow horizontal pole, the one end of hollow horizontal pole with the inside intercommunication of bucket down, hollow horizontal pole sets up the below of baffle, the other end of hollow horizontal pole with the one end intercommunication of hollow pole, the vertical setting of hollow pole, the other end of hollow pole is provided with the A impeller, the A impeller pass through the B pivot with A linkage shaft in the hollow pole is connected, B linkage shaft in the hollow horizontal pole with the A linkage shaft is connected, the B linkage shaft is used for the drive the center pivot is rotatory.

As a further description of the above technical solution:

the bottom surface of lower bucket and the one end fixed connection of stand, the other end and the counter weight base fixed connection of stand.

The invention has the following beneficial effects:

1. the cost of the deinsectization device is reduced, the deinsectization device can be shifted in position according to use requirements after being used, and the deinsectization device can be moved and managed.

2. Utilize two-stage pest processing unit, after killing the pest by the electric shock of one-level pest processing unit, smash by second grade pest processing unit again for the storage capacity in the pest control device is bigger, reduces staff's clearance burden.

3. Because the mode of electric shock deinsectization is adopted, the pest is destroyed by a physical crushing mode after being electrically shocked, so that the pest can be reused in the breeding industry, the damage to the natural environment is small, and the energy-saving and environment-friendly requirements are further ensured by adopting a solar charging mode.

Drawings

Fig. 1 is a schematic view of the overall structure of a pest insect trapping apparatus for forestry management.

Fig. 2 is a schematic view of the internal structure of a pest insect trapping apparatus for forestry management.

Fig. 3 is a partially schematic sectional view of a pest insect trapping device for forestry management.

In the figure, 1, a barrel is arranged; 2. discharging the barrel; 3. a column; 4. a counterweight base; 5. rain-proof caps; 6. installing a box; impeller A; 8. a pest killing ring; 9.B impeller; 101. a support pillar; 201. a partition plate; 501. a solar panel; 701. a hollow shaft; 702. a hollow cross bar; 801.A rotating shaft; 901. a central rotating shaft; 7011.B rotating shaft; 7021.A universal driving shaft; 7031 and B linkage shaft.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, a pest trapping device for forestry management comprises a first-level pest processing unit and a second-level pest processing unit, wherein the first-level pest processing unit is arranged in an upper barrel 1 and used for electrically shocking pests, the second-level pest processing unit is arranged in a lower barrel 2 and used for crushing residual pests, two ends of the upper barrel 1 are both provided with openings, the top end of the lower barrel 2 is provided with an opening, and the lower barrel 2 is sleeved at the bottom end of the upper barrel 1 through threads and communicated with the upper barrel 1.

One-level pest processing unit includes deinsectization ring 8 and A pivot 801, deinsectization ring 8 passes through A pivot 801 with go up the lateral wall of bucket 1 and rotate and connect, deinsectization ring 8 is connected with the power supply structure, A pivot 801 is connected with the output of A motor, the A motor is used for the rotation deinsectization ring 8, the power supply structure be used for to the power supply of deinsectization ring 8.

The radial of deinsectization ring 8 is provided with two A pivot 801, two A pivot 801 symmetry sets up, A pivot 801 with go up the lateral wall of bucket 1 and rotate to be connected, deinsectization ring 8 with go up 1 coaxial line of bucket and set up.

The deinsectization ring 8 comprises an insulating ring and a metal net, the metal net is fixed in the insulating ring, and the power inlet end of the metal net is connected with the power transmission end of the power supply structure.

The power supply unit includes battery, time controller and solar photovoltaic cell panel, the periphery of going up bucket 1 is provided with install bin 6, the battery with time controller all sets up in install bin 6, time controller is used for control the battery is right the power supply time of deinsectization ring 8, solar photovoltaic cell panel sets up go up the top of bucket 1, solar photovoltaic cell panel is used for the battery charges, the A motor sets up in install bin 6, the battery still be used for the A motor power supply.

Go up bucket 1 and include support column 101 and rain-proof cap 5, many support column 101 is vertical to be fixed go up the top of bucket 1, rain-proof cap 5 passes through many support column 101 is fixed go up the top of bucket 1, solar photovoltaic cell panel sets up the surface of rain-proof cap 5.

The second-level pest treatment unit comprises a crushing mechanism and a driving mechanism, the crushing mechanism is arranged in the lower barrel 2, the output end of the driving mechanism is connected with the input end of the crushing mechanism, and the driving mechanism is used for driving the crushing mechanism to rotate in the lower barrel 2.

As shown in fig. 3, the crushing mechanism includes a B impeller 9 and a central rotating shaft 901, a partition 201 is disposed in the lower barrel 2, the partition 201 divides the lower barrel 2 into an upper layer and a lower layer, the central rotating shaft 901 is vertically disposed on an upper surface of the partition 201 in a penetrating manner, the central rotating shaft 901 is rotatably connected to the partition 201, the B impeller 9 is mounted on the central rotating shaft 901, and the other end of the central rotating shaft 901 is connected to an output end of the driving mechanism.

The driving mechanism comprises an A impeller 7, a hollow rod 701 and a hollow cross rod 702, one end of the hollow cross rod 702 is communicated with the interior of the lower barrel 2, the hollow cross rod 702 is arranged below the partition plate 201, the other end of the hollow cross rod 702 is communicated with one end of the hollow rod 701, the hollow rod 701 is vertically arranged, the other end of the hollow rod 701 is provided with the A impeller 7, the A impeller 7 is connected with an A linkage shaft 7021 in the hollow rod 701 through a B rotating shaft 7011, a B linkage shaft 7031 in the hollow cross rod 702 is connected with the A linkage shaft 7021, and the B linkage shaft 7031 is used for driving the central rotating shaft 901 to rotate.

One end of the B rotating shaft 7011 is fixedly connected to the a impeller, the other end of the B rotating shaft 7011 is connected to a bevel gear disposed at one end of the a linkage shaft 7021 through a bevel gear, the other end of the a linkage shaft 7021 is connected to a bevel gear disposed at one end of the B linkage shaft 7031 through a bevel gear, the other end of the B linkage shaft 7031 is connected to a bevel gear disposed at one end of the central rotating shaft 901 through a bevel gear, and the other end of the central rotating shaft 901 is fixedly connected to the B impeller 9.

The bottom surface of bucket 2 and the one end fixed connection of stand 3 down, the other end and the counter weight base 4 fixed connection of stand 3.

The specific implementation process of the invention is as follows:

first, will counter weight base 4 places at the position of traping, and has the place of wind channel and sunshine, lures the technique through three and will trap the guide and place in the below of deinsectization ring 8, according to traping the biology, adjust the voltage value of deinsectization ring 8 utilizes time controller sets up the time of interval circular telegram in the time quantum of deinsectization ring 8 outage, the A motor is electrified for 8 upsets of deinsectization ring will the electric shock that the deinsectization ring 8 top hit the pest and pour into in bucket 2 down, resets again, waits for next repetition period.

It should be noted here that the insect killing ring 8 adopts the existing electric mosquito swatter technology on the market, and the principle is consistent.

When wind blows, the impeller A7 rotates to drive the rotating shaft B7011 to rotate, further drives the linkage shaft A7021 to rotate, and then drives the linkage shaft B7031 to rotate, so that the impeller B9 is driven to rotate, and the impeller A needs to be arranged at a high position to stir and crush the residual body of pests in the lower barrel 2 because the wind power at the high position is more sufficient than that at the low position.

When the position needs to be changed, the upper barrel 1 is screwed out from the lower barrel 2, and residues in the lower barrel 2 are poured out.

The pests killed by electric shock are fragile and easy to damage, so that the impeller A7 is not required to provide large kinetic energy.

In places with large wind power, the storage battery can also be powered by using a wind power generation technology.

In conclusion, the invention has the following beneficial effects:

Claims

1.A harmful insect trapping device for forestry management, characterized in that: including one-level pest processing unit and second grade pest processing unit, one-level pest processing unit sets up in upper barrel (1), one-level pest processing unit is used for the electric shock pest, second grade pest processing unit sets up in bucket (2) down, second grade pest processing unit is used for smashing the incomplete trunk of pest, the both ends of going up bucket (1) are the opening, the top opening of bucket (2) down, bucket (2) down establish through the screw thread cover go up the bottom of bucket (1) and with go up bucket (1) intercommunication.

2. A pest insect trapping device for forestry management according to claim 1, wherein: one-level pest processing unit includes deinsectization ring (8) and A pivot (801), deinsectization ring (8) are passed through A pivot (801) with the lateral wall of last bucket (1) rotates to be connected, deinsectization ring (8) are connected with power supply structure, A pivot (801) are connected with the output of A motor, the A motor is used for the rotation deinsectization ring (8), power supply structure be used for to deinsectization ring (8) power supply.

3. A pest insect trapping device for forestry management according to claim 2, wherein: the radial of deinsectization ring (8) is provided with two A pivot (801), two A pivot (801) symmetry sets up, A pivot (801) with the lateral wall of last bucket (1) rotates to be connected, deinsectization ring (8) with go up bucket (1) coaxial line setting.

4. A pest insect trapping device for forestry management according to claim 2 or 3, wherein: the deinsectization ring (8) comprises an insulation ring and a metal net, the metal net is fixed in the insulation ring, and the power inlet end of the metal net is connected with the power transmission end of the power supply structure.

5. A pest insect trapping device for forestry management according to claim 4, wherein: the power supply unit includes battery, time controller and solar photovoltaic cell panel, the periphery of going up bucket (1) is provided with install bin (6), the battery with time controller all sets up in install bin (6), time controller is used for control the battery is right the power supply time of deinsectization ring (8), solar photovoltaic cell panel sets up the top of going up bucket (1), solar photovoltaic cell panel is used for giving the battery charges, the A motor sets up in install bin (6), the battery still is used for giving the A motor power supply.

6. A pest insect trapping device for forestry management as claimed in claim 5, wherein: go up bucket (1) including support column (101) and rain-proof cap (5), many support column (101) are vertical to be fixed go up the top of bucket (1), rain-proof cap (5) are through many support column (101) are fixed go up the top of bucket (1), solar photovoltaic cell panel sets up the surface of rain-proof cap (5).

7.A pest insect trapping device for forestry management according to any one of claims 1 to 3, wherein: the secondary pest treatment unit comprises a crushing mechanism and a driving mechanism, the crushing mechanism is arranged in the lower barrel (2), the output end of the driving mechanism is connected with the input end of the crushing mechanism, and the driving mechanism is used for driving the crushing mechanism to rotate in the lower barrel (2).

8. A pest insect trapping device for forestry management according to claim 7, wherein: the crushing mechanism comprises an impeller B (9) and a central rotating shaft (901), a partition plate (201) is arranged in the lower barrel (2), the lower barrel (2) is divided into an upper layer and a lower layer by the partition plate (201), the central rotating shaft (901) is vertical and penetrates through the upper surface of the partition plate (201), the central rotating shaft (901) is rotatably connected with the partition plate (201), the impeller B (9) is installed on the central rotating shaft (901), and the other end of the central rotating shaft (901) is connected with the output end of the driving mechanism.

9. A pest insect trapping device for forestry management according to claim 8, wherein: the driving mechanism comprises an A impeller (7), a hollow rod (701) and a hollow cross rod (702), one end of the hollow cross rod (702) is communicated with the interior of the lower barrel (2), the hollow cross rod (702) is arranged below the partition plate (201), the other end of the hollow cross rod (702) is communicated with one end of the hollow rod (701), the hollow rod (701) is vertically arranged, the other end of the hollow rod (701) is provided with the A impeller (7), the A impeller (7) is connected with an A linkage shaft (7021) in the hollow rod (701) through a B rotating shaft (7011), a B linkage shaft (7031) in the hollow cross rod (702) is connected with the A linkage shaft (7021), and the B linkage shaft (7031) is used for driving the center rotating shaft (901) to rotate.

10. A pest insect trapping device for forestry management according to claim 9, wherein: the bottom surface of the lower barrel (2) is fixedly connected with one end of the upright post (3), and the other end of the upright post (3) is fixedly connected with the counterweight base (4).