LU505075B1 - High-efficiency insecticidal device for pomelo orchards and insecticidal method thereof - Google Patents

Abstract

The invention relates to the technical field of orchard pest control, in particular to a high-efficiency insecticidal device for pomelo orchards and an insecticidal method thereof. The high-efficiency insecticidal device for pomelo orchards comprises an outer housing and a shaft sleeve; outer housing: cylindrical, with side holes on side along axial direction, with a support sheet fixed at the bottom of the inner cavity, a collector on the upper side of the support sheet; the outer housing is light-tight, with a side frame fixed on side, and the outer housing is fixed with a base at the bottom end; shaft sleeve is rotatably installed in the mounting hole at the top of the outer housing, the inner cavity of the shaft sleeve is provided with a trapping assembly extending to the inner cavity of the outer housing, the upper end of the side frame is provided with a driving piece.

Description

DESCRIPTION LU505075

HIGH-EFFICIENCY INSECTICIDAL DEVICE FOR POMELO ORCHARDS AND

INSECTICIDAL METHOD THEREOF

TECHNICAL FIELD

The invention relates to the technical field of orchard pest control, in particular to a high-efficiency insecticidal device for pomelo orchards and an insecticidal method thereof.

BACKGROUND

Fragrant pomelo attracts a lot of flying insects at night when the fruit is ripe. The appearance of these flying insects affects the normal growth of the fruit, leading to the phenomenon of fruit disease or loss, affecting economic losses. Pests or other moths are a great harm in agricultural production. In terms of preventing insect diseases, insects are usually trapped by the smell of pesticides and then killed. However, the current insecticidal device is not stable enough, and its efficiency and effectiveness in killing pests are not very strong. It is easy for pests to escape and be affected by various natural environments, so the efficiency is not high and the insecticidal effect is not complete. Therefore, the invention proposes a high-efficiency insecticidal device for pomelo orchards and an insecticidal method thereof.

SUMMARY LU505075

The technical problem to be solved by the invention is to overcome the existing defects, and to provide a high-efficiency insecticidal device for pomelo orchards and an insecticidal method thereof, which are carried out by means of seduction and active disinfection, so that the escape rate of pests and diseases is reduced, the insecticidal efficiency is improved, the loss of orchards is reduced, and the problems in the background technology can be effectively solved.

In order to achieve the above objectives, the present invention provides the following technical scheme.

A high-efficiency insecticidal device for pomelo orchards comprises an outer housing and a shaft sleeve; outer housing: cylindrical, with side holes on side along axial direction, with a support sheet fixed at the bottom of the inner cavity, and a collector on the upper side of the support sheet; the outer housing is light-tight, with a side frame fixed on side, and the outer housing is fixed with a base at the bottom end; shaft sleeve is rotatably installed in the mounting hole at the top of the outer housing, the inner cavity of the shaft sleeve is provided with a trapping assembly extending to the inner cavity of the outer housing, the upper end of the side frame is provided with a driving piece for driving the shaft sleeve to rotate, the outer side of the lower end of the shaft sleeve is fixed with an isolation net, the collector is located directly below the isolation net, an insect-trapping lamp is fixed on the top surface of the inner cavity of the outer housing, the isolation net is cylindrical, and the insect-trapping lamp is located inside the isolation net; a side surface of the outer housing is provided with an installation groove, and a pesticide spraying mechanism is arranged in the installation groove, and the pesticide spraying mechanism is symmetrically arranged with the side hole; a side of the side frame is provided with a storage battery and a controller, the input end of the controller is electrically connected with the output end of the storage battery,

and the output end of the controller is electrically connected with the input end of tH&J505075 insect-trapping lamp.

Further, the trapping assembly comprises a sleeve, a partition plate, a core-trapping cavity, a hormone-trapping core, a powder cavity and an air hole, wherein the sleeve is arranged in the shaft sleeve, and the side surface of the lower end of the sleeve is provided with air holes at equal angles; the middle part of the lower end of the sleeve is divided into an upper core-trapping cavity and a lower powder cavity by a partition plate; a hormone-trapping core is arranged in the core-trapping cavity. The powder cavity is used to place hormone powder and cooperate with hormone lure core to attract pests.

Further, stop blocks are fixed on both sides of the top of the sleeve, the upper end of the shaft sleeve is provided with a clamping groove engaged with the stop blocks, and the top opening of the sleeve is provided with a plunger. The whole sleeve can be directly detached from the shaft sleeve, which is convenient for replacement. After the plunger is removed, the hormone lure core can be dripped with hormone liquid, so that the hormone lure core can be put into use quickly.

Further, the driving piece comprises a motor, a first gear and a second gear, the motor is fixed on the side frame, a first gear is fixed on the output shaft of the motor, a second gear meshed with the first gear is fixed on the upper end of the shaft sleeve, and the input end of the motor is electrically connected with the output end of the controller.

The driving part drives the isolation net to rotate, so that pests can be uniformly attached to the surface of the isolation net after entering from the side holes, and at the same time, the pesticide spraying mechanism can spray the isolation net comprehensively, actively kill and ensure comprehensiveness;

Further, the lower end of the isolation net is closed, and baffles are equiangularly distributed along the axial direction of the isolation net. After the isolation net rotates, the partition blocks the gap between the isolation net and the casing to prevent pests from escaping.

Further, the collector comprises a mesh base and a handle, wherein the mesh bagé/505075 is disc-shaped and has a mesh at the bottom, a chute matched with the mesh base is arranged at the side of the outer housing, and a handle is fixed on the side surface of the mesh base. The collector plays the role of separation, separating the excessive liquid medicine from the pests' corpses, and the pests' corpses on the net seat of the collector can be taken out by side pulling, which is convenient for cleaning.

Further, the pesticide spraying mechanism comprises a nozzle, a module box, a connecting pipe, a medicine box and a negative pressure pump, wherein the module box is arranged in an installation groove on the side of the outer housing, and the side of the module box is provided with a nozzle facing the isolation net, the medicine box is installed on the side frame, and the bottom end interface of the medicine box is connected with the side interface of the module box through a connecting pipe, the middle part of the connecting pipe is connected with a negative pressure pump in series, and the input end of the negative pressure pump is connected with the output of the controller. The rotating isolation net is sprayed by the spraying mechanism, which plays an active role in disinfection.

Further, the base comprises an upright post, a cone head and a support plate, wherein the upper end of the upright post is fixed on the housing, the lower end of the upright post is fixed with the cone head, and the upper end of the cone head is fixed with the support plate. The housing is fixed by the base.

Further, a fan is arranged in the installation groove where the pesticide spraying mechanism is located, and the input end of the fan is electrically connected with the output end of the controller. The fan can accelerate the escape of hormones to the outside, thus quickly attracting a wide range of pests and improving efficiency.

A high-efficiency insecticidal method for pomelo orchards comprises: LU505075

S1: putting the hormone-trapping core in the core-trapping cavity, and turning on the fan and the insect-trapping lamp, so that the hormone-trapping core volatilizes from the side hole of the outer housing to the outside, and the light of the insect-trapping lamp also comes from the position of the side hole;

S2: when in use, turning on the motor and the negative pressure pump, so that the motor works, driving the shaft sleeve to rotate through the first gear and the second gear, the isolation net rotates along with the shaft sleeve; when the negative pressure pump works, sending the pesticide in the medicine box to the module box through the connecting pipe and spraying to the outside of the isolation net through the nozzle;

S3: the flying insects on the outside enter the inner cavity of the outer housing from the side hole after being influenced by the hormone-trapping core and the insect-trapping lamp; as the hormone-trapping core and the insect-trapping lamp are located in the inner cavity of the isolation net, the flying insects on the outside enter the inner cavity of the outer housing from the side hole after the flying insects are influenced by the hormone-trapping core and the insect-trapping lamp; as the hormone-trapping core and the insect-trapping lamp are located in the inner cavity of the isolation net, the flying insects are attached to the outside of the isolation net, and the liquid medicine sprayed by the nozzle is directly adsorbed on the flying insects; the rotation of the isolation net uniformly covers the flying insects attached to the outside, and the dead flying insects fall off from the isolation net and fall into the collector.

Compared with the prior art, the invention has the following benefits. 1. The fan can accelerate the escape of hormones to the outside, so as to quickly attract pests in a large range and improve the efficiency. The escape rate of pests and diseases is reduced and the insecticidal efficiency is improved by the way of attraction and active disinfection. The pests attached to the rotating isolation net are sprayed by the pesticide spraying mechanism, which plays an active disinfection role and reduces the loss of orchards;

2. The isolation net is driven by the driving part to rotate, so that the pests can bé/505075 uniformly attached to the surface of the isolation net after entering from the side holes, and at the same time, the pesticide spraying mechanism can spray the isolation net comprehensively, actively kill and ensure comprehensiveness, and the powder cavity is used to place hormone powder and cooperate with the hormone lure core to lure the pests; 3. The whole sleeve can be directly detached from the shaft sleeve, which is convenient for replacement. After the plunger is removed, the hormone lure core can be dripped with hormone liquid, so that the hormone lure core can be put into use quickly.

After the isolation net rotates, the partition board blocks the gap between the isolation net and the casing, which plays a role in preventing pests from escaping outwards. 4. The collector plays the role of separation, separating the excessive liquid medicine from the pests' corpses, and the pests' corpses on the net seat of the collector can be taken out by side pulling, which is convenient for cleaning without excessive operation and convenient for management and control in the orchard.

BRIEF DESCRIPTION OF THE FIGURES

Fig. 1 is a schematic view of the overall shaft side structure of the present invention;

Fig. 2 is a schematic view of the overall sectional structure of the present invention;

Fig. 3 is a schematic diagram of the partial structure of the present invention. 1 outer housing, 101 side hole, 102 support sheet, 2 shaft sleeve, 3 trapping assembly, 301 sleeve, 302 partition plate, 303 core-trapping cavity, 304 hormone-trapping core, 305 powder cavity, 306 air hole, 307 plunger, 308 stop block, 4 driving piece, 401 motor, 402 first gear, 403 second gear, 5 isolation net, 501 baffle, 6 collector, 601 mesh base, 602 handle, 7 pesticide spraying mechanism, 701 nozzle, 702 module box, 703 connecting pipe, 8 base, 801 upright post, 802 cone head, 803 support plate, 9 side frame, 10 storage battery, 11 controller, 12 medicine box, 13 negative pressure pumps, 14 fans, 15 insect-trapping lamp.

DESCRIPTION OF THE INVENTION LU505075

In the following, the technical scheme in the embodiment of the invention will be clearly and completely described with reference to the attached drawings. Obviously, the described embodiment is only a part of the embodiment of the invention, but not the whole embodiment. Based on the embodiments in the present invention, all other embodiments obtained by ordinary technicians in the field without creative labor belong to the scope of protection of the present invention.

Referring to Figures 1-3. This embodiment provides the following technical scheme.

A high-efficiency insecticidal device for pomelo orchards comprises an outer housing 1 and a shaft sleeve 2; outer housing 1: cylindrical, with side holes 101 on side along axial direction, with a support sheet 102 fixed at the bottom of the inner cavity, and a collector 6 on the upper side of the support sheet 102; the outer housing 1 is light-tight, with a side frame 9 fixed on side, and the outer housing 1 is fixed with a base 8 at the bottom end; the base 8 comprises an upright post 801, a cone head 802 and a support plate 803, wherein the upper end of the upright post 801 is fixed on the housing 1, the lower end of the upright post 801 is fixed with the cone head 802, and the upper end of the cone head 802 is fixed with the support plate 803; when in use, the base 8 needs to be fixed first, the cone head 802 needs to penetrate into the soil, and the support plate 803 is supported on the surface of the soil layer.

Shaft sleeve 2 is rotatably installed in the mounting hole at the top of the outer housing 1, the inner cavity of the shaft sleeve 2 is provided with a trapping assembly 3 extending to the inner cavity of the outer housing 1, the upper end of the side frame 9 is provided with a driving piece 4 for driving the shaft sleeve 2 to rotate, the outer side of the lower end of the shaft sleeve 2 is fixed with an isolation net 5, the collector 6 is located directly below the isolation net 5, an insect-trapping lamp 15 is fixed on the top surface of the inner cavity of the outer housing 1, the isolation net 5 is cylindrical, and the insect-trapping lamp 15 is located inside the isolation net 5.

The trapping assembly 3 comprises a sleeve 301, a partition plate 302, lä&J505075 core-trapping cavity 303, a hormone-trapping core 304, a powder cavity 305 and an air hole 306, wherein the sleeve 301 is arranged in the shaft sleeve 2, and the side surface of the lower end of the sleeve 301 is provided with air holes 306 at equal angles; the middle part of the lower end of the sleeve 301 is divided into an upper core-trapping cavity 303 and a lower powder cavity 305 by a partition plate 302; a hormone-trapping core 304 is arranged in the core-trapping cavity 303.

The whole sleeve 301 can be directly detached from the shaft sleeve 2, which is convenient for replacement. After the plunger 307 is removed, hormone liquid can be dripped into the hormone-trapping core 304, so that the hormone-trapping core 304 can be put into use quickly. After the isolation net 5 rotates, the partition plate 501 blocks the gap between the isolation net 5 and the casing 1, which plays a role in preventing pests from escaping outwards.

Stop blocks 308 are fixed on both sides of the top of the sleeve 301, the upper end of the shaft sleeve 2 is provided with a clamping groove engaged with the stop blocks 308, and the top opening of the sleeve 301 is provided with a plunger 307.

The driving piece 4 comprises a motor 401, a first gear 402 and a second gear 403, the motor 401 is fixed on the side frame 9, a first gear 402 is fixed on the output shaft of the motor 401, a second gear 403 meshed with the first gear 402 is fixed on the upper end of the shaft sleeve 2, and the input end of the motor 401 is electrically connected with the output end of the controller 11.

The isolation net 5 is driven to rotate by the driving piece 4, so that pests can be uniformly attached to the surface of the isolation net 5 after entering from the side hole 101, and at the same time, the pesticide spraying mechanism 7 can spray the isolation net 5 comprehensively, actively kill and ensure comprehensiveness, and the powder cavity 305 is used for placing hormone powder and cooperating with the hormone-trapping core 304 to attract pests.

The lower end of the isolation net 5 is closed, and baffles 501 are equiangularly distributed along the axial direction of the isolation net 5.

The collector 6 comprises a mesh base 601 and a handle 602, wherein the mesH/505075 base 601 is disc-shaped and has a mesh at the bottom, a chute matched with the mesh base 601 is arranged at the side of the outer housing 1, and a handle 602 is fixed on the side surface of the mesh base 601.

The collector 6 has the function of separating the excessive liquid medicine from the pest corpses, and the pest corpses on the mesh base 601 of the collector 6 can be taken out by side pulling, which is convenient for cleaning without excessive operation and convenient for management and control in the orchard.

A side surface of the outer housing 1 is provided with an installation groove, and a pesticide spraying mechanism 7 is arranged in the installation groove, and the pesticide spraying mechanism 7 is symmetrically arranged with the side hole 101;

A fan 14 is arranged in the installation groove where the pesticide spraying mechanism 7 is located, and the input end of the fan 14 is electrically connected with the output end of the controller 11.

The fan 14 can accelerate the escape of hormones to the outside, so as to quickly attract pests in a large range and improve the efficiency. The escape rate of pests and diseases is reduced and the insecticidal efficiency is improved by the way of attraction and active killing. The pests attached to the isolation net 5 are sprayed by the pesticide spraying mechanism 7, which plays an active killing role and reduces the loss of the orchard.

The pesticide spraying mechanism 7 comprises a nozzle 701, a module box 702, a connecting pipe 703, a medicine box 12 and a negative pressure pump 13, wherein the module box 702 is arranged in an installation groove on the side of the outer housing 1, and the side of the module box 702 is provided with a nozzle 701 facing the isolation net 5, the medicine box 12 is installed on the side frame 9, and the bottom end interface of the medicine box 12 is connected with the side interface of the module box 702 through a connecting pipe 703, the middle part of the connecting pipe 703 is connected with a negative pressure pump 13 in series, and the input end of the negative pressure pump 13 is connected with the output of the controller 11.

A side of the side frame 9 is provided with a storage battery 10 and a controller 14U505075 the input end of the controller 11 is electrically connected with the output end of the storage battery 10, and the output end of the controller 11 is electrically connected with the input end of the insect-trapping lamp 15.

A high-efficiency insecticidal method for pomelo orchards comprises:

S1: putting the hormone-trapping core 304 in the core-trapping cavity 303, and turning on the fan 14 and the insect-trapping lamp 15, so that the hormone-trapping core 304 volatilizes from the side hole 101 of the outer housing 1 to the outside, and the light of the insect-trapping lamp 15 also comes from the position of the side hole 101;

S2: when in use, turning on the motor 401 and the negative pressure pump 13, so that the motor 401 works, driving the shaft sleeve 2 to rotate through the first gear 402 and the second gear 403, the isolation net 5 rotates along with the shaft sleeve 2; when the negative pressure pump 13 works, sending the pesticide in the medicine box 12 to the module box 702 through the connecting pipe 703 and spraying to the outside of the isolation net 5 through the nozzle 701;

S3: the flying insects on the outside enter the inner cavity of the outer housing 1 from the side hole 101 after the flying insects are influenced by the hormone-trapping core 304 and the insect-trapping lamp 15; as the hormone-trapping core 304 and the insect-trapping lamp 15 are located in the inner cavity of the isolation net 5, the flying insects are attached to the outside of the isolation net 5, and the liquid medicine sprayed by the nozzle 701 is directly adsorbed on the flying insects; the rotation of the isolation net 5 uniformly covers the flying insects attached to the outside, and the dead flying insects fall off from the isolation net 5 and fall into the collector 6.

It is worth noting that the controller 11 disclosed in the above embodiment controls the insect trap lamp 15, the fan 14 and the motor 401 in a conventional manner in the prior art. The fan 14 can be an axial fan, the motor 401 is a low-speed motor, and the insect trap lamp 15 is a visible light or an ultraviolet light.

The above is only the embodiment of the present invention, which does not limit tH&J505075 patent scope of the present invention.

Any equivalent structure or equivalent process transformation made by using the description and attached drawings of the present invention, or directly or indirectly used in other related technical fields, are equally included in the patent protection scope of the present invention.

Claims (10)

CLAIMS LU505075

1. A high-efficiency insecticidal device for pomelo orchards, comprising an outer housing (1) and a shaft sleeve (2); outer housing (1): cylindrical, with side holes (101) along axial direction, with a support sheet (102) fixed at the bottom of the inner cavity, and a collector (6) on the upper side of the support sheet (102); the outer housing (1) is light-tight, with a side frame (9) fixed on side, and the outer housing (1) is fixed with a base (8) at the bottom end; shaft sleeve (2) is rotatably installed in the mounting hole at the top of the outer housing (1), the inner cavity of the shaft sleeve (2) is provided with a trapping assembly (3) extending to the inner cavity of the outer housing (1), the upper end of the side frame (9) is provided with a driving piece (4) for rotating the shaft sleeve (2), the outer side of the lower end of the shaft sleeve (2) is fixed with an isolation net (5), the collector (6) is located directly below the isolation net (5), an insect-trapping lamp (15) is fixed on the top surface of the inner cavity of the outer housing (1), the isolation net (5) is cylindrical, and the insect-trapping lamp (15) is located inside the isolation net (5); a side surface of the outer housing (1) is provided with an installation groove, a pesticide spraying mechanism (7) is arranged in the installation groove, and the pesticide spraying mechanism (7) is symmetrically arranged with the side hole (101); a side of the side frame (9) is provided with a storage battery (10) and a controller (11), the input end of the controller (11) is electrically connected with the output end of the storage battery (10), and the output end of the controller (11) is electrically connected with the input end of the insect-trapping lamp (15).

2. The high-efficiency insecticidal device for pomelo orchards according to claim 14505075 characterized in that the trapping assembly (3) comprises a sleeve (301), a partition plate (302), a core-trapping cavity (303), a hormone-trapping core (304), a powder cavity (305) and an air hole (306), wherein the sleeve (301) is arranged in the shaft sleeve (2), the side surface of the lower end of the sleeve (301) is provided with air holes (306) at equal angles; the middle part of the lower end of the sleeve (301) is divided into an upper core-trapping cavity (303) and a lower powder cavity (305) by a partition plate (302); a hormone-trapping core (304) is arranged in the core-trapping cavity (303).

3. The high-efficiency insecticidal device for pomelo orchards according to claim 2, characterized in that stop blocks (308) are fixed on both sides of the top of the sleeve (301), the upper end of the shaft sleeve (2) is provided with a clamping groove engaged with the stop blocks (308), and the top opening of the sleeve (301) is provided with a plunger (307).

4. The high-efficiency insecticidal device for pomelo orchards according to claim 1, characterized in that the driving piece (4) comprises a motor (401), a first gear (402) and a second gear (403), the motor (401) is fixed on the side frame (9), a first gear (402) is fixed on the output shaft of the motor (401), a second gear (403) meshed with the first gear (402) is fixed on the upper end of the shaft sleeve (2), and the input end of the motor (401) is electrically connected with the output end of the controller (11).

5. The high-efficiency insecticidal device for pomelo orchards according to claim 1, characterized in that the lower end of the isolation net (5) is closed, and baffles (501) are equiangularly distributed along the axial direction of the isolation net (5).

6. The high-efficiency insecticidal device for pomelo orchards according to claim 14505075 characterized in that the collector (6) comprises a mesh base (601) and a handle (602), wherein the mesh base (601) is disc-shaped and has a mesh at the bottom, a chute matched with the mesh base (601) is arranged at the side of the outer housing (1), and a handle (602) is fixed on the side surface of the mesh base (601).

7. The high-efficiency insecticidal device for pomelo orchards according to claim 1, characterized in that the pesticide spraying mechanism (7) comprises a nozzle (701), a module box (702), a connecting pipe (703), a medicine box (12) and a negative pressure pump (13), wherein the module box (702) is arranged in an installation groove on the side of the outer housing (1), and the side of the module box (702) is provided with a nozzle (701) facing the isolation net (5), the medicine box (12) is installed on the side frame (9), the bottom end interface of the medicine box (12) is connected with the side interface of the module box (702) through a connecting pipe (703), the middle part of the connecting pipe (703) is connected with a negative pressure pump (13) in series, and the input end of the negative pressure pump (13) is connected with the output of the controller (11).

8. The high-efficiency insecticidal device for pomelo orchards according to claim 1, characterized in that the base (8) comprises an upright post (801), a cone head (802) and a support plate (803), wherein the upper end of the upright post (801) is fixed on the outer housing (1), the lower end of the upright post (801) is fixed with the cone head (802), and the upper end of the cone head (802) is fixed with the support plate (803).

9. The high-efficiency insecticidal device for pomelo orchards according to claim 1, characterized in that a fan (14) is arranged in the installation groove where the pesticide spraying mechanism (7) is located, and the input end of the fan (14) is electrically connected with the output end of the controller (11).

10. A high-efficiency insecticidal method for pomelo orchards, comprising: LU505075

S1: putting the hormone-trapping core (304) in the core-trapping cavity (303), and turning on the fan (14) and the insect-trapping lamp (15), so that the hormone-trapping core (304) volatilizes from the side hole (101) of the outer housing (1) to the outside, and the light of the insect-trapping lamp (15) also comes from the position of the side hole (101);

S2: when in use, turning on the motor (401) and the negative pressure pump (13), so that the motor (401) works, und drives the shaft sleeve (2) to rotate through the first gear (402) and the second gear (403), the isolation net (5) rotates along with the shaft sleeve (2); when the negative pressure pump (13) works, putting the pesticide in the medicine box (12) to the module box (702) through the connecting pipe (703) and spraying to the outside of the isolation net (5) through the nozzle (701);

S3: the flying insects on the outside enter the inner cavity of the outer housing (1) from the side hole (101) after the flying insects are influenced by the hormone-trapping core (304) and the insect-trapping lamp (15); as the hormone-trapping core (304) and the insect-trapping lamp (15) are located in the inner cavity of the isolation net (5), the flying insects are attached to the outside of the isolation net (5), and the liquid medicine sprayed by the nozzle (701) is directly adsorbed on the flying insects; the rotation of the isolation net (5) uniformly covers the flying insects attached to the outside, and the dead flying insects fall off from the isolation net (5) and fall into the collector (6).