CN117981740A - Insect-proof spraying device - Google Patents

Abstract

The invention discloses an insect prevention spraying device, and relates to the field of spraying devices. The utility model provides an protection against insects sprinkler, includes first, second, the axis of rotation of water tank, second is through the axis of rotation connection on first the water tank, still includes: the two groups of mounting plates are respectively and fixedly connected to the first water tank and the second water tank, the two groups of mounting plates are semicircular, and hollow holes are formed in the centers of the mounting plates, the first water tank and the second water tank; the plurality of groups of atomizing nozzles are annularly and respectively fixedly connected to the two groups of mounting plates, and the air outlet ends of the atomizing nozzles face upwards; according to the invention, the atomizing nozzle arranged at the bottom can effectively spray the bottom of the blade, so that the possibility of residual eggs and adults at the bottom of the blade is reduced, and meanwhile, the umbrella-shaped plate above the atomizing nozzle can effectively collect fog to form water drops which drop on the leaves or flow to the vicinity of roots, so that diseases and insect pests can be effectively prevented.

Description

Insect-proof spraying device

Technical Field

The invention belongs to the technical field of spraying devices, and particularly relates to an insect prevention spraying device.

Background

When insect prevention spraying is carried out, the conventional spraying mode is generally used for spraying above or at the side part of the locust tree seedlings, the spraying heads continuously move in an arc shape in the process, move from the top to the side part and then return to the top, and the sprayed liquid medicine is mostly adhered to the leaves of the leaves, so that the situation that eggs and adults remain at the bottoms of the leaves is very easy to occur, and certain defects exist.

Disclosure of Invention

The technical problem underlying the present invention is to overcome the disadvantages of the prior art by providing a spraying device which overcomes or at least partially solves the above mentioned problems.

In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: including water tank one, water tank two, axis of rotation, water tank two is connected on water tank one through the axis of rotation, still includes:

the two groups of mounting plates are respectively and fixedly connected to the first water tank and the second water tank, the two groups of mounting plates are semicircular, and hollow holes are formed in the centers of the mounting plates, the first water tank and the second water tank;

The spray heads are annularly and fixedly connected to the two groups of mounting plates respectively, and the air outlet ends of the spray heads face upwards to form mist which gradually rises to spray;

the plurality of groups of air outlet nozzles are annularly and fixedly connected to the two groups of mounting plates respectively, the air outlet nozzles are obliquely arranged inwards, and the plurality of groups of air outlet nozzles are used for forming conical air flow;

The water pump is connected in the first water tank, and the liquid outlet end of the water pump is communicated with the atomizing nozzle;

the air pump is connected to the first water tank, and the air outlet end of the air pump is communicated with the air outlet spray head;

The water tank I is connected with a mounting rod, the mounting rod is connected with an umbrella-shaped plate, the umbrella-shaped plate and the hollow hole on the mounting plate are coaxially arranged, and the top ends of the plurality of groups of air outlet spray heads forming conical air flow are positioned in the umbrella-shaped plate.

In order to increase the range of spraying, further, all fixedly connected with telescopic link on water tank one, the water tank two, the mounting panel is run through to the flexible end of telescopic link, fixedly connected with installation strip on the penetration end of telescopic link, be connected with multiunit auxiliary spray head and connecting pipe on the installation strip, auxiliary spray head communicates with each other with the connecting pipe, be provided with the recess on the mounting panel, the recess is used for placing the connecting pipe, just the connecting pipe communicates with each other with the play liquid end of water pump.

In order to increase the atomization efficiency, a plurality of groups of needles are connected with the umbrella-shaped plate.

In order to be convenient for collect the liquid medicine that drops to in the soil near the root, further, first, second in the water tank, respectively sliding connection have arc board two, arc board one, arc board two, arc board one bottom all fixedly connected with collecting vat, collecting vat bottom fixedly connected with ground nail, be provided with the inner tube in the ground nail, the inner tube communicates with each other with the collecting vat.

In order to facilitate the fixation of the arc plates, further, the magnet rings are fixedly connected in the hollow holes of the first water tank and the second water tank, the first arc plate and the second arc plate are iron plates, and the first arc plate, the second arc plate and the magnet rings are attracted.

In order to facilitate the use of the downward movement, the first arc plate is further connected with a lower pressing rod and a lower pressing plate.

In order to facilitate the use of upward movement, the second arc plate is connected with an upper lifting rod and an upper lifting plate, and the upper lifting plate is used for driving the first arc plate to move upward.

In order to facilitate the use, still further, be connected with the outlet pipe on the play liquid end of water pump, the play liquid end of outlet pipe is connected with atomizer, be connected with the outlet duct on the end of giving vent to anger of air pump, the outlet duct is connected with atomizer of giving vent to anger.

In order to facilitate installation and use, the water tank II is further connected with a water supplementing pipe, the water supplementing pipe is used for flowing water in the water tank I and the water tank II, the water tank II is connected with a connecting water pipe, the connecting water pipe is communicated with a water outlet pipe, and one group of the mounting plates is connected with a connecting air pipe.

In order to facilitate the use, further, two groups of mounting plates are fixedly connected with electromagnets.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects: according to the invention, the atomizing nozzle arranged at the bottom can effectively spray the bottom of the blade, so that the possibility of residual eggs and adults at the bottom of the blade is reduced, and meanwhile, the umbrella-shaped plate above the atomizing nozzle can effectively collect fog to form water drops which drop on the leaves or flow to the vicinity of roots, so that diseases and insect pests can be effectively prevented.

Drawings

In the drawings:

fig. 1 is a schematic perspective view of an insect-proof spraying device according to the present invention;

Fig. 2 is a schematic perspective view of an insect-preventing spraying device according to the present invention;

FIG. 3 is a cross-sectional view of an insect-repellent spray device according to the present invention;

FIG. 4 is a second internal cross-sectional view of an insect-repellent spray device according to the present invention;

fig. 5 is a schematic perspective view of an insect-preventing spraying device according to the present invention;

Fig. 6 is a schematic structural view of a portion a of the insect-proof spraying device shown in fig. 5;

Fig. 7 is a schematic structural diagram of a first middle arc plate and a second arc plate of the insect-proof spraying device;

fig. 8 is a schematic diagram II of a first middle arc plate and a second arc plate of the insect-preventing spraying device;

fig. 9 is a schematic structural view of a portion B of the insect-proof spraying device of fig. 8 according to the present invention;

Fig. 10 is a schematic structural view of a portion C of the insect-proof spraying device of fig. 8 according to the present invention;

Fig. 11 is a schematic diagram III of a first middle arc plate and a second arc plate of the insect-proof spraying device;

Fig. 12 is a schematic structural view of a ground nail in an insect-proof spraying device according to the present invention.

In the figure: 101. a first water tank; 1011. a water pump; 1012. a water outlet pipe; 1013. connecting a water pipe; 102. a second water tank; 1021. a water supplementing pipe; 103. a mounting plate; 1031. a groove; 104. an atomizing nozzle; 105. an air pump; 1051. an air outlet pipe; 1052. connecting an air pipe; 106. a gas outlet nozzle; 107. an electromagnet; 201. a telescopic rod; 202. a mounting bar; 203. an auxiliary spray head; 204. a connecting pipe; 301. a mounting rod; 302. an umbrella-shaped plate; 303. a needle; 401. an arc plate I; 4011. pressing down a rod; 4012. a lower pressing plate; 402. an arc plate II; 4021. an upper lifting rod; 4022. an upper lifting plate; 403. a magnet ring; 404. a collection tank; 405. ground nails; 4051. an inner tube.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

Example 1: referring to fig. 1,2, 3, 4, and 5, the water tank includes a first water tank 101, a second water tank 102, and a rotation shaft, the second water tank 102 is rotatably connected to the first water tank 101 through the rotation shaft, and further includes: the two groups of mounting plates 103 are respectively and fixedly connected to the first water tank 101 and the second water tank 102, the two groups of mounting plates 103 are semicircular, and hollow holes are formed in the centers of the mounting plates 103, the first water tank 101 and the second water tank 102; the multiple groups of atomizing nozzles 104 are annularly and fixedly connected to the two groups of mounting plates 103 respectively, and the air outlet ends of the atomizing nozzles 104 face upwards to form mist which gradually rises to spray; the multiple groups of air outlet nozzles 106 are annularly and fixedly connected to the two groups of mounting plates 103 respectively, the air outlet nozzles 106 are obliquely arranged inwards, and the multiple groups of air outlet nozzles 106 are used for forming conical air flow; the water pump 1011 is connected in the first water tank 101, and the liquid outlet end of the water pump 1011 is communicated with the atomizing nozzle 104; the air pump 105 is connected to the first water tank 101, the air outlet end of the air pump 105 is communicated with the air outlet nozzle 106, and the two groups of mounting plates 103 are fixedly connected with electromagnets 107.

When the device is installed, as shown in fig. 2, universal wheels are required to be installed at the bottom of the device, movement of the device is facilitated, pest control in the process of growing the acacia seedlings is facilitated, branches of the acacia seedlings are located in the area of the installation plate 103, a control device is configured and used for controlling the water pump 1011, the air pump 105 and the electromagnet 107, meanwhile, the air outlet nozzle 106 is circumferentially arranged, the air outlet end of the air outlet nozzle 106 is converged at the top of the device, the distance is about 1m, the specific height can be set according to the height of the acacia seedlings, the device is used for spraying the acacia seedlings with the top height lower than 1m, and if the acacia seedlings with the top height higher than 1m, angle adjustment is required, so that the acacia seedlings with the height higher than 1m are conveniently sprayed.

When using, pack into the liquid medicine in the water tank, the liquid medicine is the liquid medicine that disease and pest control used, through promoting this device, make this device remove, and then remove to locust seedling planting department, break off the electricity of electro-magnet 107 this moment, two sets of electro-magnet 107 are separated, this moment water tank one 101, water tank two 102 can separate, this moment manual removal water tank two 102, the air hole in centre spills, and remove this device, make the locust seedling be located the air hole department, later on water tank one 101, water tank two 102, the locust seedling is located the air hole this moment, open the water pump 1011 afterwards, inhale the water in the water tank through the water pump 1011, at this moment atomizer 104 will spout a large amount of fog, these fog will rise gradually, and then cover the bottom of locust blade, be stained with the bottom of blade (if there is the worm ovum, will contact with the worm ovum, and then kill the ovum, in this process, these adult insects also will contact with fog), these air can also drive blade and branch's rocking, the fog also will be stained on the part position on the blade surface, follow-up fog will rise, the position of fog will be located the air hole, at this moment, the water pump 1011 will fall into the position, the mist will fall into the position because of the mist is directly after the mist, the mist is reached, the mist can not reach the top of the influence of the top of the position of the blade, and drop, the top drop can fall down, the top is directly because of the mist is influenced by the mist, the top position is reached, and drop can fall down to the top down, the top drop position is directly because the top position is influenced by the mist, and drop down, and drop can drop down, and drop down.

When the water pump 1011 is started, the air pump 105 can be started, external air is sucked through the air pump 105, and then the air is sprayed out through the air outlet nozzle 106, and because the air outlet end of the air outlet nozzle 106 is converged at the top of the device, a conical-like shape is formed at the moment, and at the moment, the upwards moving fog is concentrated in the conical airflow (because the upwards moving height of the fog is limited, part of fog continues to move upwards along with the airflow to reach the top, the rest fog forms large-particle water fog which gradually moves downwards and contacts with branches and leaves, and because the branches and leaves are in a continuously swaying state, the fog quickly contacts with the branches and leaves and drops to the lower side at the moment), part of long branches and leaves of the locust are blown into the conical airflow (the branches and the branches of the locust seedlings are soft and can be easily changed into a bending state) and then contact with the fog, so that the situation that the fog is not covered is reduced.

In the process, a user can observe the conditions of branches and leaves by naked eyes, if the branches and leaves are covered with water drops, the water pump 1011 and the air pump 105 can be stopped, the electromagnet 107 is turned on again, the sprayed locust seedling is removed, and another locust seedling is sprayed.

Example 2: referring to fig. 3 and 4, an insect-repellent spray device is substantially the same as in embodiment 1, and further comprises: the water tank I101 and the water tank II 102 are fixedly connected with a telescopic rod 201, the telescopic end of the telescopic rod 201 penetrates through the mounting plate 103, the penetrating end of the telescopic rod 201 is fixedly connected with a mounting bar 202, a plurality of groups of auxiliary spray heads 203 and connecting pipes 204 are connected to the mounting bar 202, the auxiliary spray heads 203 are communicated with the connecting pipes 204, the grooves 1031 are used for placing the connecting pipes 204, the connecting pipes 204 are located in the grooves 1031, the connecting pipes 204 are communicated with the liquid outlet end of the water pump 1011, and meanwhile electronic valves are arranged in the connecting pipes 204.

In the spraying process, the situation that branches and leaves in a partial area are dense exists, at the moment, the telescopic rod 201 can be started, the auxiliary spray head 203 moves upwards to reach the place where the branches and leaves are dense, the electronic valve is opened, at the moment, the auxiliary spray head 203 sprays atomized liquid medicine to spray the branches and leaves, the telescopic rod moves up and down continuously, and the situation that the branches and leaves are not sprayed is reduced.

Example 3: referring to fig. 2 and 3, an insect-repellent spray device is substantially the same as in embodiment 2, and further comprises: the first water tank 101 is connected with a mounting rod 301, the mounting rod 301 is connected with an umbrella-shaped plate 302, the umbrella-shaped plate 302 and a hollow hole on the mounting plate 103 are coaxially arranged, the top ends of the plurality of groups of air outlet nozzles 106 forming conical air flows are positioned in the umbrella-shaped plate 302, and a plurality of groups of needles 303 are connected in the umbrella-shaped plate 302.

The umbrella-shaped plate 302 is positioned at the conical top end formed by the air flow, at this time, the air flow sprayed by the air pump 105 will make the mist intensively come into the umbrella-shaped plate 302, contact with the needle 303 in the umbrella-shaped plate 302, and form water drops continuously, and finally drop through the needle 303, at this time, the water pump 1011 is turned on first, and the air pump 105 is continuously turned on, at this time, the air pump 105 will promote the dropping of the water drops on the needle 303 (the air flow will contact with the needle 303, generate small turbulence), and meanwhile, the large particle water mist formed by the mist sprayed earlier will gradually move downwards, contact with the branches and leaves below, be smaller and stay on the surfaces of the branches and leaves, be larger and drop below, finally come onto the mounting plate 103, and part of the water mist will drop along with the air flow to the umbrella-shaped plate 302 at the top, form water drops, and part of the water drops will drop onto the blades, and part will drop directly onto the mounting plate 103.

Example 4: referring to fig. 4, 5,6, 7,8, 9, 10, 11, and 12, an insect-repellent spray device is substantially the same as in embodiment 3, and further: the first and second water tanks 101 and 102 are respectively and slidably connected with a second arc plate 402 and a first arc plate 401, referring to fig. 12, the inner wall of the water tank hollow hole is provided with a chute, the second arc plate 402 and the first arc plate 401 are also provided with a convex block matched with the chute, at the moment, the second arc plate 402 and the first arc plate 401 can slide in the water tank through the convex block, the bottoms of the second arc plate 402 and the first arc plate 401 are fixedly connected with a collecting tank 404, the bottom of the collecting tank 404 is fixedly connected with a ground nail 405, the ground nail 405 is internally provided with an inner tube 4051, the inner tube 4051 is in phase with the collecting tank 404, the hollow holes of the first water tank 101 and the second water tank 102 are fixedly connected with a magnet ring 403, the first arc plate 401 and the second arc plate 402 are iron plates, the first arc plate 402, the second arc plate 402 and the magnet ring 403 are attracted, the first arc plate 401 is connected with a pressing rod 4011 and a pressing plate 4012, the pressing plate 4012 is used for driving the second arc plate 402 to move downwards (referring to fig. 7,8 and 9, an arc plate two 402, an arc plate one 401 and a circular shape are formed, a lower pressing plate 4012 is fixedly connected to the arc plate one 401, a part of the lower pressing plate 4012 is positioned on the arc plate two 402, at the moment, the arc plate one 401 is separated from the magnet ring 403 by pressing down the pressing rod 4011, then the lower pressing plate 4012 presses the arc plate two 402 to enable the arc plate two 402 to move downwards along with the arc plate two 402, an upper lifting rod 4021 and an upper lifting plate 4022 are connected to the arc plate two 402, the upper lifting plate 4022 is used for driving the arc plate one 401 to move upwards (refer to fig. 7,8 and 10, the arc plate two 402, the arc plate one 401 and the circular shape are formed, the upper lifting plate 4022 is fixedly connected to the bottom of the arc plate two 402, a part of the upper lifting plate 4022 is positioned below the arc plate one 401, when the arc plate one 401 drives the arc plate two 402 to move downwards through the lower pressing plate 4012, the upper lifting plate 4022 is also moved downwards along with the arc plate two 402, when the upper lifting rod 4021 is pulled upwards to be reset and moved upwards along with the upper lifting plate 4022, and then drives the arc plate one 401 to move upwards until contacting with the magnet ring 403, and is magnetically attracted on the magnet ring 403).

Through the setting of collecting vat 404, can collect the liquid medicine drip on mounting panel 103, in order to collect, can set up mounting panel 103 to the sunken shape in centre of a circle, similar to the shape of drip-can, the liquid that drips will concentrate to flow to two sets of collecting vats 404 this moment, simultaneously the setting of ground nail 405 and inner tube 4051, the liquid medicine that collects will flow to the locust tree root part through inner tube 4051, the user can move down depression bar 4011 before the use this moment, and then make arc board one 401 remove through depression bar 4011, make arc board two 402 and arc board one 401 move down simultaneously, make ground nail 405 insert in the soil of below (the user can judge through the feel, will insert in the soil, will feel the resistance, ground nail 405 does not contact in the initial state, the movement of this device of being convenient for), the liquid medicine that later collects will flow into in the soil through inner tube 4051, be convenient for to the prevention and cure of pest and control in the soil in the root nearby, the ovum that is shallow near the root is killed, simultaneously ground nail 405 also can be used to increase the stability and avoid moving this device.

After the use is completed, the lifting rod 4021 can be pulled upwards, the arc plate I401 is driven to move upwards by the arc plate II 402 until the arc plate I contacts the magnet ring 403, and then the lifting rod can move continuously to spray another locust.

Example 5: referring to fig. 1,2,3, 4 and 5, an insect-repellent spray device is substantially the same as in embodiment 4, and further: the liquid outlet end of the water pump 1011 is connected with a water outlet pipe 1012, the liquid outlet end of the water outlet pipe 1012 is connected with the atomizing nozzle 104, the gas outlet end of the air pump 105 is connected with a gas outlet pipe 1051, the gas outlet pipe 1051 is connected with the gas outlet nozzle 106, the water tank two 102 is connected with a water supplementing pipe 1021, the water supplementing pipe 1021 is used for flowing water in the water tank one 101 and the water tank two 102, the water tank two 102 is connected with a connecting water pipe 1013, the connecting water pipe 1013 is communicated with the water outlet pipe 1012, a group of mounting plates 103 are connected with a connecting gas pipe 1052, and the connecting gas pipe 1052 is used for circulating gas in the gas outlet nozzle 106.

The water supplementing tube 1021 is convenient for leading the liquid medicine in the water tank II 102 into the water tank I101, keeping the liquid medicine consistent, is convenient to use, and is connected with the water pipe 1013 for being communicated with the water outlet pipe 1012, so that the water discharged by the water pump 1011 is guided into the atomizing nozzle 104 and the auxiliary nozzle 203 on the other group of mounting plates 103, and the connecting air pipe 1052 is also similarly used for guiding the gas discharged by the air pump 105 into the air outlet nozzle 106 on the other group of mounting plates 103.

Wherein the water replenishing pipe 1021 and the connecting water pipe 1013 are telescopic hoses with certain telescopic capacity.

The invention can effectively spray the bottom of the blade through the atomizing nozzle 104 arranged at the bottom, reduce the possibility of residual eggs and adults at the bottom of the blade, and can effectively collect fog through the umbrella-shaped plate 302 above, so that the fog can form water drops to drop on the leaves or flow to the vicinity of roots, thereby effectively preventing and controlling plant diseases and insect pests.

The foregoing description is only illustrative of the preferred embodiment of the present invention, and is not to be construed as limiting the invention, but is to be construed as limiting the invention to any and all simple modifications, equivalent variations and adaptations of the embodiments described above, which are within the scope of the invention, may be made by those skilled in the art without departing from the scope of the invention.

Claims (10)

1. The utility model provides an protection against insects sprinkler, includes water tank one (101), water tank two (102), axis of rotation, water tank two (102) are rotated through the axis of rotation and are connected on water tank one (101), its characterized in that still includes:

The two groups of mounting plates (103) are respectively and fixedly connected to the first water tank (101) and the second water tank (102), the two groups of mounting plates (103) are semicircular, and hollow holes are formed in the centers of the mounting plates (103), the first water tank (101) and the second water tank (102);

the plurality of groups of atomizing nozzles (104) are annularly and fixedly connected to the two groups of mounting plates (103) respectively, and the air outlet ends of the atomizing nozzles (104) face upwards to form mist which gradually rises to spray;

the plurality of groups of air outlet nozzles (106) are respectively and fixedly connected to the two groups of mounting plates (103) in a ring shape, the air outlet nozzles (106) are obliquely arranged inwards, and the plurality of groups of air outlet nozzles (106) are used for forming conical air flow;

the water pump (1011) is connected in the first water tank (101), and the liquid outlet end of the water pump (1011) is communicated with the atomizing nozzle (104);

the air pump (105) is connected to the first water tank (101), and the air outlet end of the air pump (105) is communicated with the air outlet nozzle (106);

The water tank I (101) is connected with a mounting rod (301), the mounting rod (301) is connected with an umbrella-shaped plate (302), the umbrella-shaped plate (302) and the hollow holes on the mounting plate (103) are coaxially arranged, and the top ends of the plurality of groups of air outlet spray nozzles (106) forming conical air flow are positioned in the umbrella-shaped plate (302).

2. The insect prevention spraying device according to claim 1, wherein the first water tank (101) and the second water tank (102) are fixedly connected with telescopic rods (201), telescopic ends of the telescopic rods (201) penetrate through the mounting plate (103), mounting strips (202) are fixedly connected to penetrating ends of the telescopic rods (201), a plurality of groups of auxiliary spray heads (203) and connecting pipes (204) are connected to the mounting strips (202), the auxiliary spray heads (203) are communicated with the connecting pipes (204), grooves (1031) are formed in the mounting plate (103), the grooves (1031) are used for placing the connecting pipes (204), and the connecting pipes (204) are communicated with a liquid outlet end of the water pump (1011).

3. An insect-repellent spray device according to claim 1, characterized in that a plurality of groups of needles (303) are connected to the umbrella plate (302).

4. An insect prevention spraying device according to claim 1, wherein the first water tank (101) and the second water tank (102) are respectively and slidably connected with a second arc plate (402) and a first arc plate (401), the bottoms of the second arc plate (402) and the first arc plate (401) are respectively and fixedly connected with a collecting tank (404), the bottom of the collecting tank (404) is fixedly connected with a ground nail (405), an inner pipe (4051) is arranged in the ground nail (405), and the inner pipe (4051) is communicated with the collecting tank (404).

5. The insect-proof spraying device according to claim 4, wherein the first and second magnet rings (403) are fixedly connected in the holes of the first and second water tanks (101, 102), the first and second arc plates (401, 402) are iron plates, and the first and second arc plates (401, 402) and the magnet rings (403) attract each other.

6. An insect-repellent spray device according to claim 4, wherein the first arc plate (401) is connected with a pressing rod (4011) and a pressing plate (4012).

7. An insect-proof spraying device according to claim 4, wherein the arc plate two (402) is connected with an upper lifting rod (4021) and an upper lifting plate (4022), and the upper lifting plate (4022) is used for driving the arc plate one (401) to move upwards.

8. An insect-proof spraying device according to claim 1, characterized in that the liquid outlet end of the water pump (1011) is connected with a water outlet pipe (1012), the liquid outlet end of the water outlet pipe (1012) is connected with an atomizer (104), the gas outlet end of the air pump (105) is connected with a gas outlet pipe (1051), and the gas outlet pipe (1051) is connected with a gas outlet nozzle (106).

9. An insect-proof spraying device according to claim 8, wherein the second water tank (102) is connected with a water supplementing pipe (1021), the water supplementing pipe (1021) is used for flowing water in the first water tank (101) and the second water tank (102), the second water tank (102) is connected with a connecting water pipe (1013), the connecting water pipe (1013) is communicated with the water outlet pipe (1012), and a group of mounting plates (103) are connected with a connecting air pipe (1052).

10. An insect-repellent spray device as claimed in claim 1, wherein the mounting plates (103) of both groups are fixedly connected with electromagnets (107).