KR20120030650A - Control apparatus for organic fertilizer - Google Patents

Abstract

PURPOSE: A device for controlling the fertilizer application amount is provided to automatically control the fertilizer application amount by rotating a hopper opening and closing member. CONSTITUTION: A rotary motor is controlled by an external signal. A hopper opening/closing member controls a hopper(10) by rotation. A device for controlling the fertilizer application amount includes a first gear, a second gear, and a third gear. The first gear is associated with the second gear, and transmits the torque of the rotary motor to a second gear. The second gear rotates the hopper opening/closing member. The third gear is associated with the second gear, and includes an angle sensor to measure the rotation amount of the gear. The rotary motor is controlled by the rotation amount of the angle sensor.

Description

Fertilizer spread rate control structure {Control Apparatus for Organic Fertilizer}

The present invention relates to a fertilizer spreading amount control structure used for agricultural spreaders, and more particularly to a structure that can conveniently adjust the spreading amount while simplifying the configuration and operation in the agricultural spreader for spraying fertilizers or pesticides.

In the process of growing crops such as rice, radish and Chinese cabbage in outdoor and plastic houses, fertilizers or pesticides are used appropriately to promote the growth of crops and to grow crops so that crops can overcome various pests. Or pesticides are generally sprayed through agricultural spreaders.

The agricultural spreader according to the prior art has a lot of inconvenience, such as manual adjustment to adjust the discharge (or spreading amount) of the fertilizer or pesticide stored in the hopper. In the case of such a manual control lever has a problem that the work efficiency is lowered because the operation must be stopped while working in the process of working.

The present invention has been made in order to solve the problems caused by manually adjusting the spreading amount of agricultural spreader, while providing a device for automatically adjusting the spreading amount while simplifying the structure and operation of the fertilizer spreading rate adjustment to improve the work efficiency We want to provide a structure.

The present invention provides the following problem solving means to achieve the above object.

The hopper 10 for storing the fertilizer and the like according to the present invention, the injection pipe 20 connected to the hopper 10, and supplying wind power to the injection pipe 20 to enable the application of the fertilizer, etc. to the outside The structure for adjusting the fertilizer spreading amount of the fertilizer spreader including a blowing fan 70 and a power unit 74 for supplying rotational force to the blowing fan 70, the rotation motor 80 is controlled the amount of rotation by an external signal And, the hopper opening and closing member 94 for adjusting the opening and closing of the outlet of the hopper 10 by rotation, the rotary motor 80 is controlled by the amount of rotation by an external signal, and the hopper opening and closing member 94 A second gear 102 for rotating the hopper opening / closing member 94 and a second gear 102 to be engaged with the second gear 102 to transmit the rotational force of the rotary motor 80 to the second gear 102. A first gear 101, a third gear 103 provided in engagement with the second gear 102, and a rotation shaft of the third gear 103 It is connected, comprising an angle sensor 100 for measuring the amount of rotation of the third gear 103, characterized in that for controlling the rotation motor 80 by measuring the amount of rotation measured by the angle sensor (100). It is done.

At this time, the ratio of the rotation angle of the first gear 101, the second gear 102 and the third gear 103 is preferably 300: 80: 360.

In addition, the hopper 10 for storing the fertilizer and the like according to the present invention, the injection pipe 20 is connected to the hopper 10, and by supplying wind power to the injection pipe 20 can be sprayed fertilizer and the like to the outside The structure for adjusting the fertilizer spreading amount of the fertilizer spreader including a blowing fan 70 and a power unit 74 for supplying rotational force to the blowing fan 70, the rotating motor portion is controlled by the amount of rotation by an external signal And a wire member 63 connected to the rotary motor unit 61 and whose tension is changed by the amount of rotation of the rotary motor unit 61, and connected to one end of the wire member 63. And a piston member (65) equipped with an opening / closing member (66) for adjusting the fuel supply amount to the power unit (74), and a recovery spring (67) for restoring the piston member (65) to its original position. When the wire member 63 is pulled by the rotation of the rotary motor 61, the piston member is By the opening and closing member 66 is opened, the greater the amount of rotation is characterized in that the area that is open increases.

The present invention has been made in order to solve the problems caused by manually adjusting the spreading amount of agricultural spreader, while providing a device for automatically adjusting the spreading amount while simplifying the structure and operation of the fertilizer spreading rate adjustment to improve the work efficiency It has the effect of providing a structure.

1 is a perspective view of an agricultural spreader according to an embodiment of the present invention.
Figure 2 is a side view of one embodiment of the present invention.
Figure 3 is an exploded perspective view of the fertilizer spreading amount control structure according to the present invention.
Figure 4 is an operation explanatory diagram of the fertilizer spreading amount control structure according to the present invention
5 is another conceptual view of the fertilizer spreading amount control structure according to the present invention.
Figure 6 is a perspective view of another embodiment of the fertilizer spreading amount control structure according to the present invention.
7 is a structural diagram of another embodiment of the fertilizer spreading amount control structure according to the present invention.
8 is a structural diagram of another embodiment of the fertilizer spreading amount control structure according to the present invention.

Hereinafter, with reference to the accompanying drawings, an agricultural spreader according to an embodiment of the present invention will be described in detail.

However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Even if the terms are the same, if the displayed portions are different, it is to be noted that the reference numerals do not match.

The terms to be described below are terms set in consideration of functions in the present invention, and may be changed according to a user's intention or custom such as an experimenter and a measurer, and the definitions should be made based on the contents throughout the present specification.

1 is a perspective view of an agricultural spreader according to an embodiment of the present invention, Figure 2 is a side view of an embodiment of the present invention.

As shown in these drawings, the agricultural spreader according to the present invention, in the process of cultivating crops such as rice or radish or Chinese cabbage in the open air and in a plastic house, to promote the growth of the crops and the crops to overcome various pests In order to spread fertilizers or pesticides (hereinafter referred to as 'fertilizer' for example) in order to grow robustly, the hopper 10 and the injection pipe 20, the rotating member 30 and the drive motor 40 It is made to include.

The hopper 10 is for accommodating the fertilizer for supplying to the injection pipe 20, and is connected to the injection pipe 20 so as to communicate with the role of supplying fertilizer to the injection pipe 20. .

On the other hand, in the present embodiment is provided with a blowing fan 70 for allowing air to flow into the hopper 10 side to facilitate the discharge of fertilizer from the hopper 10. That is, the blowing fan 70 allows the air to be introduced into the hopper 10 by the centrifugal force by rotation, and the air is smoothly discharged by increasing the kinetic energy for the injection of the fertilizer. It becomes possible.

The injection pipe 20 is made of a tubular shape having a diameter smaller than that of the hopper 10 to enable smooth outflow of fertilizer supplied through the hopper 10, and to be communicatively connected to the hopper 10. As a result, it serves to provide a movement route of the fertilizer.

In the present embodiment, the injection pipe 20 is provided with a pleated portion 22 of a flexible material that can be deformed so that relative rotation with respect to the rotating member 30 can be made smoothly. The wrinkle part 22 has a shape in which a plurality of wrinkles are connected to each other, and each wrinkle is made of a material that can be deformed, such as synthetic resin, so that each wrinkle can be approached and spaced apart from each other according to the rotation of the wrinkle part 22.

The injection pipe 20 is coupled to the rotating member 30 so that it can be rotated with the rotating member 30. In contrast to the rotating member 30 that can be rotated together with the injection pipe 20, a configuration that can be rotated relative to the platform F supporting the hopper 10 is adopted.

Figure 3 is an exploded perspective view of the fertilizer spreading amount control structure according to the present invention, Figure 4 is an explanatory view of the operation of the fertilizer spreading amount control structure according to the present invention.

The fertilizer spreading amount control structure according to the present invention supplies the hopper 10 for storing fertilizer, etc., the spray pipe 20 connected to the hopper 10, and the wind power to the spray pipe 20 to spray the fertilizer, etc. to the outside. It is attached to the fertilizer spreader which includes the blowing fan 70 which makes it possible, and the power part 74 which supplies rotational force to the blowing fan 70.

One embodiment of the fertilizer spreading amount control structure according to the present invention relates to a structure for adjusting the amount of fertilizer discharged from the hopper 10 for storing the fertilizer and the like.

An adjustment lever 90 is provided at the bottom of the hopper 10 to adjust the discharge of fertilizer and the like stored in the hopper 10. In one embodiment, the lower portion of the hopper 10 is provided with a blocking member moving in conjunction with the control lever 10, when the control lever 10 is pulled down the blocking member is moved to the lower portion of the hopper 10 Opening to the pipe 20, the control lever 10 is raised again to return to the original position, the blocking member is a structure for closing the lower portion of the hopper (10). This is only one embodiment, the present invention can be applied if the structure of the discharge of the fertilizer and the like stored in the hopper 10 by the interlocking control lever 10 is adjusted.

The control lever 90 is rotatably connected to the lower end 91 of the hopper. The control lever 90 is fastened to the connecting rod 84. The fastening portion 93 of the control lever 90 and the connecting rod 84 is a structure that can be rotated. The control lever 90 is rotated by the vertical movement of the connecting rod 84.

On the side where the other end of the connecting rod 84 is located, the rotary motor unit 81 is provided. The rotation motor unit 81 may be bidirectionally rotated by an external signal. The reduction motor 82 is connected to the rotary motor unit 81 to increase the torque.

A rotating member 83 having a predetermined length is fixed to the rotating shaft of the rotating motor unit 81, and a rotating motion is provided to be equal to the rotating shaft. One end of the connecting rod 84 is rotatably connected to the rotating member 83. That is, the connecting rod 84 is vertical by the rotational movement of the rotary member 83. This is a structure similar to a crank arm.

4 is an explanatory view of the operation of the fertilizer spreading amount control structure according to the present invention. When the rotating motor unit 81 rotates by an external signal, the rotating member 83 rotates by the rotation angle, and the connecting rod 84 rotatably connected thereto makes vertical movement. In addition, the other end of the connecting rod 84 is rotatably connected, the control lever 90 provided to be rotatable at the bottom of the hopper 10 is converted into a rotational movement in accordance with the vertical movement of the connecting rod 84, and linked thereto The structure of the outlet of the lower hopper 10 is adjusted.

The actual connecting rod 84 moves while drawing a somewhat curved trajectory according to the rotation of the rotating member 83. Therefore, when forming the opening 76 through which the connecting rod 84 passes in the support member 75 of the rotary motor 81, it should be formed to be somewhat longer in consideration of this.

However, such a structure may cause a problem that the connecting rod 84 and the connecting portion of the rotating member 83 are broken because excessive force is applied to the connecting rod 84 when the fertilizer is loaded in a larger amount than fertilizer. have.

In order to solve this problem, the structure shown in FIGS. 6 to 8 is proposed as another embodiment of the present invention.

As shown in FIG. 6, the rotary motor 80 is directly connected to the opening and closing member of the hopper. 7 and 8 illustrate a direct connection structure of the rotary motor 80 and the hopper opening and closing member.

The opening and closing member 94 of the hopper is provided at the outlet of the hopper to open and close the outlet by rotation. It consists of a partition wall 95 connected between a pair of rotatable side walls.

That is, while the partition wall 95 closes the outlet of the hopper, when the rotatable sidewall rotates, the partition wall 95 also rotates accordingly, and a space is created in the outlet of the hopper to discharge fertilizer.

One side of the rotatable side wall is provided with a second gear 102 to rotate the hopper opening and closing member. As the gear rotates, the rotatable sidewall 95 rotates, and thus the partition wall 95 rotates to open or close the outlet of the hopper.

The first motor 101 is directly connected to the rotary motor 80. In addition, the first gear 101 and the second gear 102 mesh with each other to rotate. That is, the rotational force of the rotary motor 80 is a structure to enable the rotation of the hopper opening and closing member.

In the present invention, the second gear 102 is provided to mesh the third gear 103. The third gear 103 is provided with an angle sensor 100 such as a potentiometer. As the second gear 102 rotates, the third gear 103 also rotates, and the rotation angle of the third gear is measured by the angle sensor 100.

The value measured by the angle sensor 100 is transmitted as an electrical signal to the microcomputer, so that the current opening and closing degree of the hopper opening and closing member can be known and controlled.

In FIG. 6, the gears are represented as being provided inside the frame, but may be provided outside. That is, the right scope of the present invention is the first gear 101 directly connected to the rotary motor, the second gear 102 and the second gear 102 directly connected to the hopper opening and closing member and the angle sensor 100 is engaged. It is in the structure of the third gear 103 is connected to the) so that the amount of rotation of the second gear 102 can be measured.

In the present invention, it is preferable that the rotation angle ratio of each gear is first gear: second gear: third gear = 300: 80: 360 degrees. This means that when the third gear 103 rotates 360 degrees, the first gear rotates by 300 degrees and the second gear rotates by 80 degrees. By increasing the rotation angle ratio of the third gear 103 than the second gear 102 there is an advantage that the reliability of the value measured by the sensor can be improved.

Another embodiment of the fertilizer spreading amount control structure according to the present invention, by adjusting the amount of fuel flowing into the blowing fan 70 for supplying wind power to the injection pipe 20 through which the fertilizers pass, etc. to adjust the amount of fertilizers sprayed to the outside It is a structure.

5 is a conceptual diagram of a structure for implementing such an effect. This structure is provided with a rotary motor portion 61 whose rotation amount is controlled by an external signal. The rotary motor unit 61 is fixed to the support member 75. The wire member 63 is fixedly connected to the rotary motor unit 61. The wire member 63 is pulled and unrolled by the rotation angle of the rotary motor unit 61. The rotary motor unit 61 repeats the pulling and loosening of the wire member 63 while repeating the rotation within a predetermined angle range.

Although not specifically illustrated in FIG. 5, the rotating motor unit 61 is provided with a rotating member fixed to the rotating shaft, and the wire member 63 is preferably fixed to the end of the rotating member. It is preferable that the structure for pulling the wire member 63 while the rotating member is moved by rotation.

The other end of the wire member 63 leads to an opening through which fuel flows into the power unit 74 that supplies power to the blowing fan 70. As shown in FIG. 5, the wire member 63 is fixed to the piston member 65, and the piston member 65 is equipped with an opening / closing member 66 for adjusting the fuel supply amount to the power unit 74. .

The opening and closing member 66 may be in the form of a needle valve as an example. That is, when the rotary motor unit 61 rotates to pull the wire member 63, the piston member 65 is pulled out, and the opening and closing member 66 is separated from the groove 69 to supply fuel to the power unit 74. The opening for the structure is expanded.

When the rotating motor part 61 rotates in reverse and the tension applied to the wire member 63 is released, the piston member 65 and the opening / closing member 66 should be restored to their original positions to reduce the opening for fuel supply. For this purpose, it is preferable that the piston member 65 is inserted in the cylinder member 64, and a recovery spring 67 is provided for restoring the piston member 65 to its original position.

That is, when the wire member 63 is pulled by the rotation of the rotary motor unit 61, the piston member 65 moves to open and close the opening and closing member 66, and the larger the amount of rotation, the larger the opening area.

The rotary motor parts 61 and 81 are controlled by the control part, such as a microcomputer. The rotating motor unit can be bidirectionally rotated within a predetermined angle range, thereby adjusting the fertilizer spreading amount.

The present invention has the effect of controlling the rotary motor unit, and connected to it to provide a spraying amount control structure to automatically adjust the spraying amount in the course of the fertilizer spraying operation, it is meaningful to improve the work efficiency of the operator.

The present invention is not limited to the scope of the embodiments by the above embodiments, all having the technical spirit of the present invention can be seen to fall within the scope of the present invention, the present invention is the scope of the claims by the claims Note that is determined.

10: Hopper 20: injector
22: wrinkle portion 30: rotating member
32: body 34: first connection portion
36: second connection portion 40: drive motor
42: drive shaft 50: guide member
60: rotation angle measuring device 70: blowing fan
80: rotary motor 90: control valve

Claims (3)

A hopper 10 for storing fertilizer, etc., an injection pipe 20 connected to the hopper 10, and a blowing fan 70 for supplying wind power to the injection pipe 20 to enable the application of fertilizer to the outside. In the structure for adjusting the fertilizer spreading amount of the fertilizer spreader comprising a power unit 74 for supplying rotational force to the blowing fan 70,
A rotation motor 80 whose rotation amount is controlled by an external signal,
Hopper opening and closing member 94 for controlling the opening and closing of the outlet of the hopper 10 by rotation,
A rotation motor 80 whose rotation amount is controlled by an external signal,
A second gear 102 connected to the hopper opening / closing member 94 to rotate the hopper opening / closing member 94;
A first gear 101 engaged with the second gear 102 and transmitting a rotational force of the rotary motor 80 to the second gear 102;
A third gear 103 provided in engagement with the second gear 102;
It is connected to the rotary shaft of the third gear 103, and comprises an angle sensor 100 for measuring the amount of rotation of the third gear 103,
By controlling the rotation motor 80 by measuring the amount of rotation measured by the angle sensor 100,
Fertilizer spread rate control structure. The method according to claim 1,
The ratio of the rotation angle of the first gear 101, the second gear 102 and the third gear 103 is characterized in that 300: 80: 360,
Fertilizer spread rate control structure. A hopper 10 for storing fertilizer, etc., an injection pipe 20 connected to the hopper 10, and a blowing fan 70 for supplying wind power to the injection pipe 20 to enable the application of fertilizer to the outside. In the structure for adjusting the fertilizer spreading amount of the fertilizer spreader comprising a power unit 74 for supplying rotational force to the blowing fan 70,
A rotation motor unit 61 in which a rotation amount is controlled by an external signal,
A wire member 63 connected to the rotary motor unit 61 and whose tension is changed by the amount of rotation of the rotary motor unit 61;
A piston member 65 connected to one end of the wire member 63 and provided with an opening / closing member 66 for adjusting a fuel supply amount to the power unit 74;
A recovery spring 67 for returning the piston member 65 to its original position,
When the wire member 63 is pulled by the rotation of the rotary motor unit 61, the piston member is moved to open and close the opening and closing member 66, and as the amount of rotation increases, the opening area increases.
Fertilizer spread rate control structure.

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