KR20150057574A - water-extraction type unmanned spraying device using venturi - Google Patents

Abstract

The present invention relates to a scatter-type unmanned pest control apparatus using a venturi. More specifically, the scatter-type unmanned pest control apparatus includes: a main body in which an inner space is formed; an agent tank that is installed a lower side of the main body and contains a pest control agent, which is dissolved; an air suction device which is installed on one side of the main body and sucks external air; a venturi part which discharges air, sucked by the air suction device, and the dissolved pest control agent in the agent tank at the same time; and a vent pipe installed to make air pass between the air suction device and a discharging part. The scatter-type unmanned pest control apparatus using a venturi can be used without a compressor and can be freely moved. The scatter-type unmanned pest control apparatus sprays particles lighter than air and collects heavy particles to spray the heavy particles again. Therefore, the apparatus can efficiently spray the agent. A flexible tube is used for the discharging part of the apparatus so that a dead zone to which the pest control agent cannot reach can be eliminated.

Description

[0001] The present invention relates to a water-extraction type unmanned spraying device using venturi,

The present invention relates to a spray-type unmanned sprayer using a venturi, and more particularly, to a spray-type spray cleaner using a venturi, in which particles that are lighter than air are discharged to the outside, The present invention also relates to a spray-type unmanned sprayer using a venturi that also serves as a cooling water for cooling the drive motor and the heat of the suction fan in the discharge process of the control chemicals.

In general, the control work is carried out for the prevention of pests and the hygiene of livestock in the facility house, the food processing plant, or where the livestock is kept.

In a large-scale plant, a spray car is used, but in a small-scale farm, a worker uses a hose to spray directly, so that a large number of manpower is required and a long work time is inconvenient.

As a prior art of such a control work, JP-A-1320111 discloses a spraying integrated control system for a controller having a main controller for controlling the driving of the controller and an input / output unit for inputting / outputting signals of the main controller rotor, The input / output unit displays a signal or data transmitted from the main controller unit, receives a command and data by a screen touch of a user, and transmits the command and data to the main controller unit. have.

Another prior art is disclosed in Korean Utility Model Registration No. 0375704, at least one sprayer supported on each of the rails by a roller so as to reciprocate along at least one of the rails provided in the greenhouse, A drive motor for rotating the roller to reciprocate each of the sprayers along the rail, a chemical solution supplier for pumping the chemical solution contained in the tank, and a chemical solution supplier connected to the chemical solution supplier through the hose, At least one spraying tube mounted on each of the spraying machines, at least one control valve provided on a hose connected to each of the spraying tubes, and at least one control valve provided at each of the spraying chambers, Each of the fire extinguishers or each of the rails An endpoint detection sensor provided in each of the controllers or the rails to generate a signal when each of the controllers reaches a terminal point of each rail; And a controller for controlling each of the driving motor, the chemical liquid supplier, and the control valve according to a signal transmitted from the detection sensor.

It is an object of the present invention to provide a sprayer which can be used efficiently in a facility house or a food processing plant because the sprayer is free of movement because it is not using a compressor.

The spray-type unmanned sprayer using the venturi of the present invention comprises: a main body having an inner space formed therein; A drug tank installed at a lower portion of the main body and having a control agent dissolved therein; An air suction device installed at one side of the main body and sucking outside air; A discharge unit for simultaneously discharging the air sucked through the air suction unit and the cleaning agent dissolved in the chemical tank to the outside by the venturi principle; And a vent pipe provided so that air can move between the air suction device and the discharge part.

As described above, the spray-type unmanned sprayer using the venturi of the present invention can be used without a compressor to move freely, and particles lighter than air can be sprayed, heavy particles can be recovered and re-sprayed, , And the use of a flexible tube in the discharge part makes it possible to eliminate the control square.

1 is a perspective view of a spray-type unmanned detergent using a venturi of the present invention.
2 is an exploded perspective view of a scattering type unmanned detergent using the venturi of the present invention.
FIG. 3 is a detailed schematic view of a discharge portion of a spray-type unmanned sprayer using a venturi according to the present invention.
4 is a partial schematic diagram showing a venturi portion of a spray-type unmanned detergent using a venturi according to the present invention.

The spray-type unmanned sprayer (100) using the venturi of the present invention comprises a main body (110) in which an inner space is formed; A drug tank 120 installed at a lower portion of the main body 110 and having a control agent dissolved therein; An air suction device 130 installed at one side of the main body 110 and sucking outside air; A venturi unit 150 for simultaneously discharging the air sucked through the air suction unit 130 and the control chemicals dissolved in the chemical tank 120 to the outside by the venturi principle; And a vent pipe 140 installed to allow air to move between the air suction device 130 and the discharge unit 150.

The venturi unit 150 includes an inflow hole 151a through which air sucked from the air suction unit 130 flows through the vent pipe 140 and a discharge hole 151a through which the air introduced through the inflow hole 151a is discharged to the outside A discharge body 151 having a hole 151b formed therein; When the air is discharged to the outside through the discharge hole 151b of the discharging body 151, the medicine to be stored in the medicine tank 120 is discharged to the outside together with the air by the venturi principle, (120); And a discharge pipe 153 installed at an upper portion of the main body 110 to discharge the air discharged from the discharge hole 151b of the discharge body 151 and the cleaning agent to the outside of the main body 110, Each of the through holes 152 has a through hole 152c formed at a predetermined distance so that both ends of the through hole 152 cross in the longitudinal direction of the body 110. The through hole 152c A hollow tube 152a; And a tube 152b connected to the hollow tube 152a at one end and connected to the chemical tank 120 at the other end.

A plurality of discharge holes 151b are formed in the discharge body 151. Fine tubes 152d are connected to the respective discharge holes 151b through the through holes 152c of the hollow tube 152a, .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the non-acidic unattended sprayer of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a spray-type unmanned detergent using a venturi of the present invention, and FIG. 2 is an exploded perspective view of a spray-type unattended sprayer using a venturi of the present invention.

1 and 2, the spray-type unmanned aerosol dispenser 100 using the venturi of the present invention includes a main body 110 having an inner space formed thereon, a main body 110 installed at a lower portion of the main body 110, A medicine tank 120 is constructed and an air suction device 130 for sucking outside air is formed at one side of the main body 110. [

The air suction device is composed of a driving motor 132 for the pipe and a suction fan 131 for sucking the outside air into the inside by driving the driving motor.

A venturi unit 150 for simultaneously discharging the air sucked through the air suction unit 130 and the control chemicals dissolved in the chemical tank 120 by the venturi principle and the air suction unit 130, (140) is installed to allow the air to move between the first and the second openings (150).

Therefore, when the air is sucked from the air suction device, the air moves to the discharge part along the vent pipe, and is discharged from the venturi part to the outside of the main body through the discharge pipe 153 to be described later.

That is, the venturi part is discharged to the outside along with the chemical for the chemical tank along with the venturi principle.

FIG. 3 is a partial schematic view showing a discharging part of the spray-type unmanned detergent using the venturi of the present invention.

3, the venturi unit 150 of the present invention is configured such that the air sucked from the air suction device 130 flows through the inflow hole 151a and the inflow hole 151a through the vent pipe 140, A discharge body 151 in which a discharge hole 151b through which air is discharged to the outside is formed and a discharge tube 151b which is stored in the chemical tank 120 when air is discharged to the outside through a discharge hole 151b of the discharge body 151 A medicine delivery pipe 152 installed between the discharge body 151 and the medicine tank 120 so that the cleaning agent is discharged to the outside by the venturi principle and the discharge body 151 And a discharge tube 153 for discharging the cleaning agent to the outside of the main body 110. The discharge tube 153 is provided with a discharge tube 153a.

It is preferable that the discharge tube is rotatably mounted clockwise or counterclockwise while being fastened to the upper surface of the main body.

FIG. 4 is a partial schematic diagram showing a venturi portion of a spray-type unmanned sprayer using a venturi according to the present invention.

As shown in FIG. 4, the medicine conveying pipe 152 of the present invention is installed such that both ends of the medicine conveying pipe 152 are transversely disposed in the longitudinal direction of the main body 110, and a through hole 152c is formed at regular intervals, And a tube 152b connected to the hollow tube 152a at one end and connected to the chemical tank 120 at the other end of the hollow tube 152a, .

Both ends of the hollow tube are naturally closed to move the control agent through the micropores.

As described above, the air sucked through the air suction device moves to the venturi. More specifically, the air sucked through the air suction device moves along the vent pipe to the discharge body installed at the end of the vent pipe The air introduced into the discharge body through the inflow hole formed in the lower portion of the discharge body moves upward through the discharge hole formed in the upper portion of the discharge body.

The ventilation pipe is configured not to be the shortest distance from the air suction device to the inlet hole of the discharge body but to a zigzag shape so as to have a maximum distance so that the inside of the main body can be cooled by air.

Since the discharge tube for discharging the air to the outside is formed on the upper surface of the main body, a space is naturally formed in the main body from the discharge hole to the discharge tube.

Further, between the discharge body and the chemical tank, chemicals for transferring the chemicals by the venturi principle are provided, and the chemicals in the chemical tank are scattered together when the air is scattered.

The air discharged through the discharge hole and the cleaning agent collide with the inside of the main body to cool down. Naturally, the particles lighter than air are scattered to the outside of the main body through the discharge pipe. Particles heavier than air are discharged from the lower chemical tank .

Particularly, in the venturi portion, a plurality of discharge holes 151b of the discharging body 151 are formed so as to finely divide particles of the air and the controlling agent into fine particles, and each discharge hole 151b is provided with a hollow tube And the microtubule 152d is connected from the through hole 152c of the capillary 152a.

Therefore, the chemical agent in the chemical tank moves to the hollow tube by the venturi principle, and the hollow tube is forced to be sucked by the moving pressure of air to the discharge body through the micropores formed on the outer periphery of the hollow tube while moving the hollow tube And is discharged to the outside through the discharge hole together with the air.

One end of the hollow tube is protruded to the outside of the body so that the direction of the discharge body fastened to the micro hole of the hollow tube can be adjusted by the adjustment handle (H).

Since the adjusting handle H is a conventional implement for keeping the angle of the current position when there is no force exerted from the outside after the rotation by using the sprocket-like latching plate and the latching member, detailed description is omitted.

A partition wall 111 is provided between the main body and the air suction device and between the individual discharge bodies so that a large amount of fine particles can be formed by forming a large number of obstacles against which the air discharged from the discharge body and the control chemicals can hit, The air intake device prevents the control chemicals from entering.

In addition, a handle 160 is provided on one side of the main body so as to facilitate movement, and a support frame 180 for supporting the main body is provided at one end of the main body at one end and a wheel 170 at the other end.

As described above, the spray-type unmanned sprayer of the present invention can be used without a compressor and is free to move, particles lighter than air can be sprayed, heavy particles can be recovered and re-sprayed, There is a remarkable effect that the control box can be eliminated by using a flexible tube.

100. Sprayer
110. Body 120. Drug tank 130. Air intake device
140. Ventilation pipe 150. Venturi 160. Handle
170. Wheel 180. Support frame
111. Bulkhead 131. Suction fan 132. Driving motor
151. Discharge body 151a. Inflow ball 151b. Discharge hole
152. Drug delivery line 152a. Hollow tube 152b. tube
152c. Hole 152d. US Customs 153. Discharge tube
H. Adjustable Handle

Claims (3)

In a non-acidic unmanned detergent using a venturi for controlling chemicals in a facility house, a food processing plant, or a place where livestock is kept,
A main body 110 having an inner space formed therein;
A drug tank 120 installed at a lower portion of the main body 110 and having a control agent dissolved therein;
An air suction device 130 installed at one side of the main body 110 and sucking outside air;
A venturi unit 150 for simultaneously discharging the air sucked through the air suction unit 130 and the control chemicals dissolved in the chemical tank 120 to the outside by the venturi principle;
A vent pipe 140 installed to allow air to move between the air intake device 130 and the venturi unit 150;
Wherein the venturi-type unmanned sprayer comprises a venturi.
The method according to claim 1,
The venturi unit 150 includes an inflow hole 151a through which the air sucked from the air suction unit 130 flows through the vent pipe 140 and a discharge hole 151a through which the air introduced through the inflow hole 151a is discharged to the outside. A discharge body 151 having a discharge chamber 151b formed therein;
When the air is discharged to the outside through the discharge hole 151b of the discharging body 151, the medicine to be stored in the medicine tank 120 is discharged to the outside together with the air by the venturi principle, (120);
A discharge pipe 153 installed at the upper part of the main body 110 and discharging the air discharged from the discharge hole 151b of the discharge body 151 and the cleaning agent to the outside of the main body 110;
Respectively,
The medicine conveyance pipe 152 is provided so that both ends of the medicine conveyance pipe 152 are transversely disposed in the longitudinal direction of the main body 110. The through hole 152 is formed with a predetermined interval so that the discharge body 151 is provided for each of the through holes 152c. A hollow tube 152a to be fastened;
A tube 152b having one end connected to the hollow tube 152a and the other end connected to the chemical tank 120;
Which is characterized in that it is constituted by a venturi.
3. The method of claim 2,
A plurality of discharging holes 151b of the discharge body 151 are formed and a micro tube 152d is connected to the discharging holes 151b through the through hole 152c of the hollow tube 152a to discharge the medicine Fugitive unmanned detergent using characteristic venturi.

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