KR101390504B1 - Pollinating Apparatus - Google Patents

Abstract

The present invention relates to an artificial respiratory apparatus for flowers, which comprises a suction pipe for collecting and transporting pollen from a plant to be harvested, a pollen storage unit for temporarily storing or transporting the pollen transferred along the suction pipe to a target plant, A blower for generating a flow of air by rotation, a connection pipe connected to the discharge pipe, a flower pot sucked through the suction pipe and the discharge pipe is temporarily stored, And a first opening / closing unit for controlling the discharge of air by the mode selection signal, and a pollen storing unit for storing pollen in the pollen storing unit, The first and second open / close valves are closed so that the pollen is converted into the artificial moisture mode in which the pollen And it characterized in that configured by a control unit for controlling the second opening and closing part.
According to the present invention configured as described above, the opening and closing of the first opening and closing part and the second opening and closing part are controlled to store the collected flower pollen or to pollinate the stored flower pollen, In addition, even if the direction of the blower is unidirectional, the pollen can be collected and stored, and the artificial crystal can be stored using the stored pollen, thereby reducing the complexity of the circuit for controlling the blower, thereby reducing the manufacturing cost.
In addition, since the suction pipe and the discharge pipe are provided with the tensile portions which can be varied in length depending on the shrinkage or expansion, the artificial moisture of the flowers in various positions is enabled.

Description

[0001] POLLINATING APPARATUS [0002]

The present invention relates to an artificial moisture device of a flower, and more particularly to a artificial moisture device capable of picking up pollen from a large number of flowers for a short period of time and making water.

The fruit juices are made by insects such as bees. In order to increase water efficiency, breeding and use of insects with narrow radius of activity and easy rearing are used. However, there is a possibility that the fire prevention method using an insect is prevented from the fire prevention activity due to the climatic factor and other factors, and sufficient loss can not be obtained.

In addition, fruits such as apples, pears, peaches, and kiwis are securing the amount of defects according to artificial moisture. For artificial moisture, mixed powders are added to the pollen collected beforehand by diluting or increasing the pollen of the powder.

In addition, in the work of artificial moisture, a rod having a feather attached to a bamboo rod is used, and a mixed powder is attached to the feather, and a human feathers the artificial moisture by using a feather rod by the hand of each flower.

However, since the artificial moisture must be carried out at the flowering time of the fruit tree, it is necessary to complete the work of collecting pollen and artificial pollination in a short period of time. For this reason, in the case of the above artificial moisture requiring a large number of labor, there is a problem that the working efficiency is significantly lowered in the case of bad weather such as rain or strong wind.

Korean Registered Patent No. 0576914 (Apr. 27, 2006)

The present invention has been made to solve the problems occurring in the prior art, and it is an object of the present invention to provide an artificial fruit branch capable of rapidly collecting and storing pollen, do.

The artificial moisture device according to the present invention comprises a suction pipe for picking up and transporting pollen from a plant to be picked up, a pollen conveyed along the suction pipe for temporarily storing or transferring the pollen to a target plant, A blower for generating a flow of air by rotation; a connection pipe connected to the discharge pipe, in which a flowerpot sucked through the suction pipe and the discharge pipe is temporarily stored, and air And a pollen storage mode in which pollen is collected from the plant to be collected by receiving the mode selection signal and the pollen is stored in the pollen storage unit or the pollen stored in the pollen storage unit is discharged Wherein the first opening and closing part and the second opening and closing part are connected to the artificial moisture mode, And a control unit for controlling the two opening and closing units.

In addition, the suction pipe may have a suction port having a shape in which the diameter of the suction pipe increases in the longitudinal direction toward the subject plant, a shape in which the pressure is decreased by increasing the speed of air, And further includes a first tensile portion which can be varied in length depending on the shrinkage or expansion.

In addition, the discharge tube may have a discharge port having a shape in which the diameter increases in the direction of the longitudinal end at one end in the longitudinal direction so that the flowerpot collected in the plant for artificial insemination can be easily seated, And a second tension portion, wherein the water football is inserted into the other longitudinal end of the discharge pipe, and an inlet, which is an empty space, is formed between the outer circumferential surface of the water football and the discharge pipe.

According to the present invention configured as described above, the opening and closing of the first opening and closing part and the second opening and closing part are controlled to store the collected flower pollen or moisture of the stored flower pollen, In addition, even if the direction of the blower is unidirectional, the pollen can be collected and stored, and the artificial crystal can be stored using the stored pollen, thereby reducing the complexity of the circuit for controlling the blower, thereby reducing the manufacturing cost.

In addition, since the suction pipe and the discharge pipe are provided with the tensile portions which can be varied in length depending on the shrinkage or expansion, the artificial moisture of the flowers in various positions is enabled.

FIG. 1 is a sectional view showing a case where the artificial moisture device according to the present invention is in a pollen storage mode. FIG.
2 is a cross-sectional view of the AA portion of FIG.
FIG. 3 is a cross-sectional view of the artificial moisture device according to the present invention in the artificial fertilization mode.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view of the artificial moisture device 10 according to the present invention, and FIG. 2 is a cross-sectional view taken along line AA of FIG.

1, the artificial moisture device 10 according to the present invention includes a suction pipe 100, a discharge pipe 200, a blower 300, a pollen storage unit 400, and a control unit 500.

As shown in FIG. 1, in order to easily collect the pollen of the plant to be pollinated, the suction pipe 100 is shaped to increase the diameter in the longitudinal direction toward the plant to be harvested at one end The branch may have a suction port 110 having a shape in which the diameter of the other end is reduced toward the longitudinal end so that the pressure can be decreased by increasing the speed of the air. FIG. 1 shows only the parabolic shape in the longitudinal cross section of the male soccer 120. However, if the diameter is reduced, various modifications are possible within a range that can be changed by those skilled in the art including a triangular shape. In addition, the suction pipe 100 may further include a first stretching part 130 whose length can be varied depending on contraction or expansion. The length of the suction pipe 100 can be freely stretched depending on the position of the plant to be pollinated by the first stretching part 130.

The discharge pipe 200 is for transferring the pollen transferred along the suction pipe 100 to the pollen storage unit 400 or the water target plant. As shown in FIG. 1, the pollen collected in the plant for artificial insemination The discharge port 210 may have a shape in which the diameter increases in the direction of the lengthwise end at one end in the longitudinal direction. As shown in FIG. 2, the water soccer 120 may be inserted into the discharge pipe 200 at the other end in the longitudinal direction of the discharge pipe 200, and an empty space may be formed between the outer circumferential surface of the water- And the air generated by the blower 300 to be described later can be introduced. In addition, the discharge tube 200 may further include a second tensile part 230 whose length can be varied depending on shrinkage or expansion. The length of the discharge tube 200 can be freely stretched according to the position of the plant to be subjected to moisture by providing the second tensile portion 230. In addition, a first opening and closing part 240 and a second opening and closing part 250 that can be opened and closed can be further provided in the discharge pipe 200, which will be described later.

The blower 300 generates wind force from the rotational force to sequentially generate the airflow in the discharge pipe 200 and the suction pipe 100.
That is, when the wind force of the blower 300 passes through the inlet 220 described above, the air flows in one direction in the discharge tube 200 by the wind pressure of the blower 300. At this time, the suction pipe 100 communicating with the discharge pipe 200 is also influenced by the air flow in the discharge pipe 200, so that the air flow in which the stagnant air moves toward the discharge pipe 200 is naturally .
In other words, when a wind pressure toward the inside of the discharge pipe 200 is generated, a pressure difference is generated between the suction pipe 100 and the discharge pipe 200, so that stagnant air in the suction pipe 100 is discharged to the discharge pipe 200, An air flow is generated.
Therefore, since the suction force is generated in accordance with the air flow in the suction pipe 100, the pollen of the plant to be harvested can be sucked from the suction port 110 of the suction pipe 100, (200) are successively inserted into the plant to be fertilized.

The pollen storage unit 400 is for temporarily storing the pollen inhaled from the suction pipe 100. Preferably, the filter 410 may be provided therein.

The control unit 500 receives the mode selection signal of the user through an operation unit (not shown) outside the artificial moisture device 10 and switches the mode to the pot storage mode or the artificial moisture mode. 1, the first opening and closing part 240 is opened and the pollen of the plant to be pollinated is transported through the suction pipe 100 and the discharge pipe 200 while the second opening and closing part 250 is closed, And is temporarily stored in the pollen storage unit 400. [ In the artificial moisture mode, as shown in FIG. 2, the first opening / closing part 240 is closed and the flower pot stored in the flowerpot storage part 400 is transferred through the discharge pipe 200 while the second opening / closing part 250 is opened Means that the pollen is seated on a plant subject to moisture.

Next, specific operations of the artificial moisture generator 10 according to the present invention will be described.

When the user selects the pot collection mode through the operation part of the artificial moisture device 10, the first opening and closing part 240 is opened and the second opening and closing part 250 is closed as shown in FIG. 1, . At this time, when the wind power of the blower 300 flows into the discharge pipe 200 through the inlet 220, the internal air of the suction pipe 100 communicated with one end of the discharge pipe 200 flows into the pollen storage 400 And the pollen collected from the suction pipe 100 is stored in the pollen storage 400.

3, when the user selects the artificial moisture mode through the operation unit of the artificial moisture device 10, the first opening and closing part 240 is closed and the second opening and closing part 250 is opened, The pollutants are supplied from the plant to be harvested from the air flow in the suction pipe 100 or air passages are formed in the direction of the discharge pipe 200 from the pollen storage 400 to the pollen storage 400 The stored flower pots are placed on the water target plant located at one end of the discharge pipe 200 through the discharge pipe 200, and artificial insemination is completed.
The action of the pollen stored in the pollen storage 400 to move back to the discharge tube 200 can be achieved by Bernoulli's principle.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, Appropriate changes will be possible.

100: suction pipe 200: discharge pipe
300: blower 400: pollen storage unit
500:

Claims (3)

A suction pipe for picking up and transporting pollen from a plant to be harvested;
A discharge pipe including a second opening and closing part for temporarily storing the pollen transferred along the suction pipe or transferring the pollen to the subject plant and controlling the inflow of air by opening and closing the inner wall;
A blower for generating a flow of air by rotation;
A pollen storage part connected to the discharge pipe and temporarily storing the pollen sucked through the suction pipe and the discharge pipe and having a first opening and closing part for controlling discharge of air by opening and closing; And
A pollen storing mode in which pollen is stored in the pollen storing unit or a pollen storing mode in which the pollen stored in the pollen storing unit is converted into an artificial moisture mode in which the pollen stored in the pollen storing unit is seated on the subject plant A control unit for controlling the first opening and closing unit and the second opening and closing unit;
And a water supply unit connected to the water supply unit. The method according to claim 1,
The suction pipe
An inlet having a shape whose diameter increases in the longitudinal direction toward the plant to be harvested at one end;
A soccer having a shape in which the diameter of the other end decreases toward the longitudinal end so that the pressure can be decreased by increasing the speed of air;
Further comprising a first tensile portion that can vary in length depending on contraction or expansion. 3. The method of claim 2,
The discharge tube
A discharge port having a shape in which a diameter increases in a direction of a lengthwise end at one end in a longitudinal direction so that a flowerpot collected in a plant for artificial insemination can be easily seated;
A second tensioning portion whose length can be varied depending on contraction or expansion;
Wherein the water soccer is inserted into the other end in the longitudinal direction of the discharge pipe and an inlet which is an empty space is formed between the outer circumferential surface of the water football and the discharge pipe.

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