KR20130020075A - Artificial pollination apparatus - Google Patents

Abstract

PURPOSE: An artificial pollination apparatus is provided to improve workability and to save a pollination solution by spaying the pollination solution only onto a stigma. CONSTITUTION: An artificial pollination apparatus comprises a storage tank(20) for storing a pollination solution; an injection part(30) with an injection nozzle(34) for spraying the pollination solution; a high pressure supply unit which sprays the pollination solution from the injection nozzle to the outside at a predetermined pressure; a sensor unit(40) which measures the distance between the injection nozzle and a pollination subject; and a controller(50) which controls the operation of the high pressure supply unit according to the distance.

Description

Artificial pollination apparatus {Artificial pollination apparatus}

The present invention relates to an artificial moisture device, and mainly to an artificial moisture device for artificially modifying plants grown in large quantities in a plastic house.

In general, it is already known that fertilization of plants occurs when male pollen is buried in the pistil by insects such as bees and butterflies. However, it is difficult to expect natural plant fertilization as insects decrease due to mass cultivation in a closed plastic house, pesticide use and environmental pollution. Therefore, artificial moisture is being promoted, and the conventional method was to apply artificial moisture to a pistil by applying a correction liquid to a brush. However, since this method is completely dependent on manual labor, it is not practical in a commercial mass planting complex due to a very difficult and inexpensive problem.

The conventional artificial moisture device is composed of a correction liquid container having a handle for carrying it, and a spray gun (SPRAY GUN) connected to the hose from the correction liquid container. Therefore, in the case of artificial moisture, the artificial moisture operation was performed to continuously compress the compression knob provided in the spray gun by hand to inject the correction liquid from the nozzle.

However, since the correction fluid is sprayed only by holding the spray gun by hand and pressing the compression knob during the operation of artificial moisture, there is a problem that it takes a lot of effort and is very difficult when using a long time to artificially moisturize a large amount of plants.

In addition, since the spray gun uses a conventional spray gun with a wide spray angle, the correction liquid is not sprayed only on the stigma, but is also sprayed on the petals or stem leaves, which causes a waste of the correction liquid.

The present invention is to solve the problems as described above provides an artificial moisture device that can easily artificially pollinate plants cultivated in large quantities, such as a plastic house, artificial leaves capable of spraying the correction solution so as not to get the correction solution, such as leaves or stems The purpose is to provide a moisture device.

Artificial moisture device according to the present invention for achieving the above object is a storage tank for storing the water solution for the moisture of the plant, and receiving the water solution from the storage tank to inject the water solution to the water target plants An injection unit provided with an injection nozzle, a high pressure supply unit for supplying the water liquid contained in the storage tank to the injection unit, and allowing the water liquid to be sprayed to the outside with a predetermined pressure from the injection nozzle; It is provided with a sensor for measuring the distance between the injection nozzle and the water object, and a controller for controlling the operation of the high pressure supply unit according to the distance between the injection nozzle and the water object measured through the sensor unit.

The injection unit is connected to the transfer pipe extending from the high pressure supply unit, the main body is provided with a flow passage through which the water liquid to be transferred through the transfer pipe therein, and the water liquid passing through the flow path to the water object. An extension tube extending from the main body so as to be sprayed toward and provided with an injection nozzle at an end thereof, wherein the sensor unit is spaced apart from the injection nozzle at an end of the rib extending from the extension in a direction that the injection nozzle is directed. Is installed.

A lever having one end rotatably coupled to the main body, and an opening / closing switch installed on the main body to transfer a control signal to the controller so as to operate the high pressure supply unit when the lever is in contact with the lever by a rotation operation of the lever. Equipped.

The high pressure supply unit is connected to the storage tank or a pump installed on a transport pipe extending into the storage tank so as to suck the water solution contained in the storage tank and pump it to the injection unit, and installed outside the storage tank. It includes an air compressor for supplying high pressure air through the pipe into the storage tank.

According to the artificial moisture device according to the present invention, since the correction liquid is automatically sprayed when approaching the stigma head, the artificial moisture work is easy and the working efficiency is improved. And correction fluid can be sprayed only on the stigma necessary for moisture, the correction fluid is saved.

1 is a schematic diagram showing an artificial moisture device according to a first embodiment of the present invention,
Figure 2 is a schematic diagram showing an artificial moisture device according to a second embodiment of the present invention.

Hereinafter, an artificial moisture device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 shows an artificial moisture device according to the present invention. Referring to FIG. 1, the artificial moisture device includes a storage tank 10 in which a water solution for plant moisture is stored, and an injection nozzle 34 which receives water from the storage tank 10 and injects a water solution to a water target plant. Is supplied to the injection unit 30 and the storage liquid 10 contained in the storage tank 10 to the injection unit 30, but the high pressure to spray the liquid from the injection nozzle 34 to the outside with a predetermined pressure It is provided between the supply unit and the spray nozzle 30 and the spray nozzle 34 measured through the sensor unit 40 and the sensor unit 40 installed in the spray unit 30 to measure the distance between the spray nozzle 34 and the water object. It is provided with a controller 40 for controlling the operation of the high-pressure supply unit according to the distance.

The storage tank 10 is a portion in which the pollen-containing moisture is stored, and an injection part 11 is provided to replenish the moisture in the upper part, and a high pressure supply part is installed at one side.

The high pressure supply unit is to spray the water liquid to the outside through the injection nozzle 34 in a state having a predetermined pressure from the injection unit 30, in this embodiment the storage tank 10 and the injection unit 30 Pump 20 was installed on the transfer pipe connecting the.

The pump 20 is coupled to the suction pipe 21 extending to the lower portion of the storage tank 10 to suck the moisture stored in the storage tank 10.

The injection unit 30 is connected to the transfer pipe 31 extending from the storage tank 10 and the one end is connected to the transfer pipe 31 so that the water solution transferred through the transfer pipe 31 therein can pass. The main body 32 provided with the flow path, the extension pipe 33 extended from the main body 32 so that the water liquid passing through the main body 32 toward the water object, and the extension pipe 33 are provided at the end of the extension pipe 33. And a spray nozzle 34 for spraying the water liquid passing through the 33 in the form of a mist. One side of the main body 32 is provided with a lever 37 that is rotatably installed to press the opening and closing switch 36 to be described later.

The sensor unit 40 is installed in the injection unit 30 and extends from the extension tube 33 toward the injection nozzle 34 by measuring the distance between the injection nozzle 34 and the water object receiving the liquid solution. 34) is provided at the end of the rib 35 extending to a position spaced apart from the predetermined distance.

Since the sensor unit 40 is installed in close proximity to the injection nozzle 34, it is preferable to apply a sensor having directivity so that the distance from the object to be positioned in the injection direction of the water liquid injected from the injection nozzle 34 can be measured. Proximity sensor, light sensor, etc. may be applied. The sensor unit 40 may be connected to the controller 40 by wire or wirelessly.

Since the distance between the spray nozzle 34 and the water object is approximately the same as the distance between the sensor 40 and the water object, the distance between the sensor 40 and the water object described below is the distance between the spray nozzle 34 and the water object. It is called the distance of.

The controller 40 may be installed in the storage tank 10 by turning on / off the operation of the pump 20 according to the distance information received from the distance information measured by the sensor unit 40 or the injection unit 30. It may be installed at).

The controller 40 operates the pump 20 when the distance between the injection nozzle 34 measured by the sensor unit 40 and the water object is less than the set reference distance, thereby causing the liquid to be injected from the injection nozzle 34. , If more than the reference distance to stop the operation of the pump 20 to block the injection of the water solution from the injection nozzle 34.

The main body 32 is provided with an opening / closing switch 36 for operating the pump 20 so as to spray the water liquid from the injection nozzle 34 by the operator's selection of performing an artificial water operation.

The open / close switch 36 operates the pump 20 through the controller 50 that controls the operation of the pump 20 based on the distance information measured by the sensor unit 40.

That is, the high-pressure supply unit is operated regardless of the distance information measured by the sensor unit 40 to inject the liquid solution. The controller 50 is set to enable the pump 20 at any time when the on / off switch 36 is operated.

On the other hand, Figure 2 shows an artificial moisture device according to a second embodiment of the present invention. Referring to FIG. 2, the artificial moisture device includes a storage tank 10, a high pressure supply unit, an injection unit, a sensor unit, and a controller 50.

Since the injection unit, the sensor unit, and the controller are the same as described in detail in the first embodiment of the present invention described with reference to FIG.

The storage tank 10 is provided with an injection hole 11 through which water is injected, and the high pressure supply part applies an air compressor 60 for supplying high pressure air into the storage tank.

The air compressor 30 is connected to the storage tank 10 and the connection pipe 12 to provide high pressure air into the storage tank, the transfer pipe 31 for connecting the storage tank 10 and the injection portion is It extends to the inside of the storage tank (10).

When the high-pressure air flows into the storage tank 10 from the air compressor 60, the positive pressure is generated inside the storage tank 10, and the water solution in the storage tank 10 is injected into the spray unit along the extension pipe 31. Will move.

The air compressor 60 is connected to the controller 50 such that an operation state is determined according to the operation of the open / close switch of the sensor unit or the injection unit.

The artificial moisture device according to the present invention as described above has been described with reference to one embodiment shown in the drawings, but this is merely exemplary and various modifications and equivalent implementations may be made by those skilled in the art. It will be appreciated that examples are possible.

Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

10: storage tank
20: Pump
30: injection unit
40: sensor unit

Claims (4)

A storage tank in which moisture solution for plant moisture is stored;
An injection unit provided with an injection nozzle receiving the moisture solution from the storage tank and spraying the moisture solution on a plant to be pollinated;
A high pressure supply unit for supplying the water liquid contained in the storage tank to the spray unit, and spraying the water liquid to the outside from the spray nozzle with a predetermined pressure;
A sensor unit installed at the spray unit to measure a distance between the spray nozzle and the water object;
And a controller for controlling the operation of the high pressure supply unit according to the distance between the spray nozzle and the water object measured by the sensor unit. The method of claim 1,
The injector
A main body having a flow passage through which one end is connected to a conveying tube extending from the high pressure supply part and the moisture liquid passed through the conveying tube passes therein;
And an extension tube extending from the main body to spray the water liquid passing through the flow path toward the water object and having the injection nozzle at an end thereof.
And the sensor unit is spaced apart from the spray nozzle at an end portion of the rib extending from the extension in a direction that the spray nozzle is directed. The method of claim 2,
A lever having one end rotatably coupled to the main body,
And an opening / closing switch installed in the main body to transmit a control signal to the controller so as to operate the high pressure supply unit when the lever contacts the lever by the rotation operation of the lever. The method of claim 2,
The high pressure supply unit
The pump is installed on a transfer pipe extending into the storage tank to pump the water into the injection unit by sucking the liquid contained in the storage tank or through a connection pipe installed outside the storage tank and connected to the storage tank. An artificial moisture device comprising an air compressor for supplying high pressure air into the storage tank.

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