JP2009095326A - Device for eliminating wriggler and supplying water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for eliminating wriggler and supplying water, capable of suppressing propagation of noxious insect mosquito and supplying water to plants in the garden and the like. <P>SOLUTION: Water containing organics is stored in a tray so as to be easily spawned, and the stored water is drained and new water is supplied every three or four days. The device for eliminating wriggler and supplying water suppresses mosquito propagation by automatically repeating the serial actions. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a bow-fula extermination and water supply device that can suppress the propagation of mosquitoes, which are pests, and supply water to plants such as gardens.

Conventionally, the water area where the bow flares grow up is found and sprayed with insecticide.
Use natural enemies such as live fish.
Some water is stored in the container so that it does not come out of the container even if the bow flares emerge, or the bow flares rise to the surface of the water for breathing.
Japanese Laid-Open Patent Publication No. 2006-223276 Japanese Laid-Open Patent Publication No. 2005-087199 JP-A-10-146145

When watering a plant, water it manually with a watering can or a hose.

Therefore, there were the following problems.
(1) The spraying of insecticide has a risk of harming the environment such as soil and water pollution.
(2) Because it breeds even in environments where it cannot live, such as fish, natural enemies are rarely used successfully.
(3) It is necessary to manually replace dead dead sea urchins and mosquito floating water in the container. Also, neglected water exchange rotted dead bow flares and mosquitoes causing odor.
(4) There were times when we couldn't get water to planted trees, and there was a possibility of withering. For example, hospitalization, travel, business trips, etc.
The present invention is intended to solve the above problems.

(I) Since mosquitoes have the habit of spawning in pooled water, etc., a trap is placed on the tray (1) to spawn and spawn.
(B) A photovoltaic cell (22), a storage battery (21), a motor (24), a timer (23), a circuit (39), etc. are provided, and the water (37) in the tray is automatically drained (36) at an arbitrarily set time. Make sure water is supplied.
(C) Drained pool water should be drained over soil, etc., where it does not flow into ponds or puddles.
(D) The amount of water supplied from the tank (10) to the tray (1) is kept constant using the atmospheric pressure (27).
(E) Before the water (29) in the tank becomes empty, water is supplied to the tank (10) about every 15 days.
(F) Since the eggs are spawned in water containing organic matter, put rice grains and udon, which will serve as the food (41) for the boufra, into the tray. In addition, water such as rivers, ponds, and swamps (42) are also placed in the tray so that algae, phytoplankton, etc. are generated.
(G) Place the spawning attractant (9) near the water surface of the tray. Lauric acid, sucrose, kairomone, etc.

(1) The accumulated water drained to the ground or the like penetrates into the soil or dries to leave a boufra or egg. Because there is no water, the boufra can't eat and dries out. In addition, eggs withstand drying for several months, but they hatch when immersed in water such as rain. Even if it hatches, it is usually a place where there is no water.
(2) Since the bowfra (30) and the egg (31) drifting in the water (37) accumulated in the tray (1) are also drained (36) to the ground, etc., they do not harm the environment and cause no odor.
(3) Since it is operated by the photocell (22), it can be easily installed even in a place without a power source, and there is no trouble of draining manually.
(4) Can be used as a water supply for planting trees in seasons and areas where there are no mosquitoes.

(A) Using a synthetic resin or the like as a material, a tray (1) is provided.
(B) Add a slope (3) to the drain side of the tray (1) so that it drains quickly.
(C) A partition wall (4) is provided so that the bow frame (30) does not enter the tank (10).
(2) The partition wall (4) is provided with a water channel (8) on the same surface as the inclined side (3), and a valve (5) is provided at the outlet to prevent the invasion of the bow flat.
(E) On the other side where the water channel (8) is provided, the partition wall (4) is provided on the wall (34) so that the bowfra (30) floating in the accumulated water (37) is drained (36) without delay. Shape it.
(F) Since the valve (5) is immersed in the accumulated water (37), the specific gravity is made heavier than that of the water (29), and it hangs down like a warm water and goes out of the partition wall (4) in one direction as shown in FIG. Make it open.
(G) As shown in FIG. 16, a fulcrum (2) is provided on the side surface of the tray (1), and when the action point (7) is pushed up, the tray (1) is inclined and the accumulated water (37) is drained. (36) Make sure that
(H) A tank (10) is provided using synthetic resin or the like as a main material. Since the atmospheric pressure (27) is used, the strength is not crushed.
(R) When the tray (1) is horizontal, the projection (6) pushes up the pin (12), and a gap (15) is formed between the packing (14) directly connected to the pin (12) and the water inlet (15). 35) is opened.
(U) When draining, when the tray (1) is tilted, the protrusion (6) and the pin (12) are not touched. At this time, the spring (13) pushes the pin (12) back and the packing (14) plugs the water inlet (15) so that the water supply stops.
(L) A shelf (18) is provided on the column (19) so that the load of the tank (10) is not applied to the tray (1).
(W) A non-woven fabric (40) or the like is provided on the tray (1) so that the bait (41) is difficult to flow when drained.
(W) Since it is installed outdoors, a rainproof cover (20) is provided to protect the storage battery (21), motor (24), timer (23), circuit (39) and the like.
(F) Because it is installed outdoors, wild birds may come to drink water and get on the tray (1). At that time, the accumulated water (37) may be spilled or the gear (25) may be damaged. Therefore, the shelf (18) is widened so that no load is applied to the inclined side (3) of the tray (1). ). Further, the crank (26) side of the tray (1) is stabilized so as to ride on the rainproof cover (20) when the tray (1) is horizontal so that a wild bird load may be applied.
(Iii) The storage battery (21) is charged by the photovoltaic cell (22) to be used as a power source for the motor (24).
(T) When the time set in the timer (23) comes, the motor (24) rotates and pushes up the operating point (7) via the gear (25) crank (26). Then, the tray (1) tilts and drains (36) from the horizontal normal state. When draining is finished, return to level and stop.
This series of operations is one cycle.

Details of a series of movements in one cycle will be described.
(1) As shown in FIG. 3, when the tray (1) is horizontal, the protrusion (6) pushes up the pin (12), and between the directly connected packing (14) and the water inlet (15). A gap (35) is opened, and water (29) flows into the partition (4) from there as shown in FIG. 4, and then flows through the water channel (8) to the tray (1). At this time, the valve (5) opens in one direction outside the partition wall (4) and only hangs down, so it does not obstruct the running water (38).
(2) As shown in FIG. 5, when the water volume of the water (37) in the tray (1) increases and reaches the screw lid (11), atmospheric pressure is applied, and the packing (14) and the water inlet (15) Water (29) does not come out of the tank (10) even if there is a gap (35) between them.
(3) When the tray (1) is tilted as shown in “FIG. 6”, the protrusion (6) is lowered from the point (A) to the point (B). Simultaneously with the lowering, the pin (12) is pushed by the spring (13). Since the packing (14) is directly connected to the pin (12), it is plugged into the water inlet (15) and the water injection from the tank (10) is stopped. The reason for plugging with the packing (14) is that when the water level (28) falls below the screw lid (11), the atmospheric pressure (27) is not applied and the water (29) flows out and is wasted. At this time, since the valve (5) only hangs down, it does not disturb the drainage (36).
(4) As shown in FIG. 16, when the time set in the timer (23) comes, the motor (24) rotates and pushes up the operating point (7) via the gear (25) crank (26). The tray (1) is tilted and the water (37) is drained (36). At this time, the eggs (31) and the bowfra (30) floating in the accumulated water (37) are also drained together. Since the drainage side is inclined (3) and the partition wall (4) is shaped like a ridge (34), it is quickly drained (36) as shown in FIG.
(5) Drainage ends and tray (1) returns to the horizontal level and stops. As shown in FIG. 5, the valve (5) is vertical and shuts off the partition wall (4) and the tray (1), so that the newly hatched bowfra does not enter the partition wall (4).
(6) When it becomes horizontal, as shown in FIG. 3 again, the protrusion (6) returns to the point (A), so the pin (12) is pushed up and a gap is formed between the packing (14) and the water inlet (15). (35) opens, and water (29) flows from the tank (10) and is supplied. When the water volume rises and reaches the screw lid (11), the atmospheric pressure (27) is applied, so the water supply is stopped and the water (29) is in the state shown in FIG.
(7) As shown in FIG. 15, sunlight (33) is charged to the storage battery (21) by the photovoltaic cell (22) during the day, and is prepared for the next operation.
As described above, a series of movements is defined as one cycle.
Since this invention consists of the above structure, when using this invention, the bait | feed (41) is rubbed to a nonwoven fabric (40) about 1 teaspoon at the beginning of use, and water, such as a river, a pond, and a swamp (42) Also put in tray (1). Water (29) is replenished to the tank (10), and the screw lid (11) is placed downward and set on the shelf (18).
It takes 7 to 10 days to lay eggs after laying eggs, but it is difficult to confirm that eggs have been laid. Therefore, an arbitrary time is set in the timer (23) so as to operate every 3 or 4 days before becoming a trap.
After a few days, algae, phytoplankton and the like naturally occur and adhere to the inner surface of the tray (1) and the nonwoven fabric (40), so it is not necessary even if the bait (41) is not melted.
Place the drained water (36) in a place where the pooled water (37) does not flow into the pond, puddle, etc., where it can be charged by sunlight (33) and level.
Replenish water about every 15 days before the tank water (29) is empty.
In winter, water (29) may freeze, so drain water. Further, since the life of the storage battery (21) is shortened, it is removed from the battery box and stored.
When using again, bait (41) is rubbed to a nonwoven fabric (40), and water (42), such as a pond, is also put into a tray.

Perspective view of the present invention Moving imaginary view of the present invention Explanatory drawing at the time of partition wall water supply Illustration of partition wall running water State of water when partition wall is horizontal Explanatory drawing of partition wall drainage State of water when partition wall drains Horizontal view of valve Side view when draining the valve Valve perspective view Perspective view of water inlet Explanatory drawing seen from the top of running water during drainage Top view of the present invention Top view of bulkhead Side view of the present invention Side view when draining the present invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Tray 2 Support point 3 Inclination 4 Bulkhead 5 Valve 6 Protrusion 7 Action point 8 Water channel 9 Spawning attractant 10 Tank 11 Screw cover 12 Pin 13 Spring 14 Packing 15 Water inlet 16 Spring receptacle 17 Shelf hole 18 Shelf 19 Prop 20 Rainproof cover 21 Storage Battery 22 Photo Battery 23 Timer 24 Motor 25 Gear 26 Crank 27 Atmospheric Pressure 28 Water Level 29 Water 30 Bow Fla 31 Egg 32 Stand 33 Sunlight 34 Basin 35 Clearance 36 Drain 37 Drained Water 38 Flowing Water 39 Circuit 40 Nonwoven Fabric 41 Feed 42 Pond Water A Point Point B

Claims (2)

  By using the habit of mosquitoes spawning in pooled water, etc., by creating pooled water, if the state of the egg or the bow flares sprinkles, the mosquitoes are automatically drained and replenished with water. Bourafra extermination and water supply, characterized by suppressing the breeding of   In the seasons and areas where mosquitoes are not present, a bow-fula extermination and watering device that can supply water to garden plants, etc., using the movement of draining the accumulated water of claim 1.

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