JPS63129940A - Hydroponic apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a hydroponic cultivation device that allows uniform plants to be cultivated systematically, efficiently (and economically).

<Prior Art> An example of a conventional hydroponic cultivation apparatus is disclosed in Japanese Patent Application Laid-Open No. 49-91833. As shown in FIG. 5, the plant is supported by a chevron-shaped panel 01 having many holes, sunlight is applied through a transparent bow-shaped roof 02, and a nutrient solution spraying mechanism 03 as shown in FIG. The solution is sprayed onto the roots of the plants to grow them.

Here, the nutrient solution spraying mechanism 03 is fixedly installed inside the chevron panel 01, and the nozzle for spraying the solution onto the roots of the plants supported by the chevron panel 01 is directed in the extending direction of the chevron panel 01. A large number of them are arranged along the

However, such a conventional fixed type nutrient solution spraying structure 03
In this case, the entire nutrient solution spraying mechanism becomes long and large, and many spray nozzles are required, making it more complicated and larger.
There were problems with growth failure, such as uneven growth and uneven growth.

<Problems to be Solved by the Invention> The present applicant has already filed an application in Japanese Patent Application No. 122752/1983 regarding a hydroponic cultivation device that solves the above problems. The hydroponic cultivation apparatus shown in this application includes a nutrient solution spraying mechanism 7, a nutrient solution pressure feeding mechanism consisting of a flexible hose 20 and a nutrient solution feed pump 12, as shown in FIG. Here, the nutrient solution sprayer 1J17 provided with four spray nozzles 31 is located inside the chevron panel 1, and is movable in the extending direction of the chevron panel 1. An endless drive chain 13 is stretched in the extending direction of the chevron panel and is wound around a roll 15 at its end, and this roll 15 is driven and rotated by a motor 14 via a roll 17. There is. The nutrient solution jet FJ mechanism 7 is fixed on the endless chain 13, so that the endless chain 13 is rotated by the motor 14 to move the nutrient solution jet FJ mechanism 7 in the extending direction of the chevron panel 1. It has become. Further, the nutrient solution spraying mechanism 7 is connected to the nutrient solution feed pump 12 via a flexible hose 20.
As shown in the figure, a hose winding device 22 is provided to prevent the flexible hose 20 from sagging. In FIG. 8, the nutrient solution spraying mechanism 78 reciprocates by reversibly winding up the rope 23 whose front and rear ends are fixed to the rope winding device 21.

Although the hydroponic cultivation apparatus having such a configuration can effectively solve the above-mentioned conventional problems, there is still room for improvement in the following points.

(1) If the flexible hose 20 is of a winding type, a separate storage space will be required, and the winding and unwinding operations of the hose 20 will be complicated.

(2) A drive source for driving the endless drive chain 13 or the rope 23, for example a round bar motor 14. Since the roll 17 or the winding device 21 is separately required, the equipment becomes larger.

(3) It was difficult to adjust the tension of the endless drive chain 13, which caused mechanical troubles such as the chain 13 coming off.

The present invention has been made in view of the above-mentioned circumstances, and its purpose is to be able to uniformly spray a nutrient solution, etc. onto the roots of plants supported by a chevron panel, and to be able to move the nutrient solution spraying mechanism using a compact means. It is an object of the present invention to provide a hydroponic cultivation device.

Means for Solving the Problems> The structure of the present invention to achieve the above object consists of the upper ends of two panels being joined together, and a large number of plants supporting the plants being protruded inward from the panels. A chevron panel with holes and a nutrient solution pumping system 8 for supplying nutrients such as α to the roots of plants from the inside of the chevron panel! In the hydroponic cultivation apparatus having a nutrient solution supply mechanism consisting of a structure and a nutrient solution spraying mechanism, the nutrient solution spraying mechanism is provided with a self-propelled means so as to be able to freely move back and forth in the extending direction of the chevron panel, and further The invention is characterized in that means for detecting the position of the nutrient solution spraying mechanism are provided at both ends of the extended chevron-shaped panel. Further, the self-propelled means includes a drive motor attached to the lower side of the mount and a sprocket fixed to the rotating shaft of the drive motor, and also connects the sprocket to a chain laid along the extending direction of the chevron panel. It is desirable to be able to transmit it.

Function> The nutrient solution spraying mechanism moves in the extension direction of the cut-out panel by self-propelled means, spraying the nutrient solution, etc., and uniformly supplying it to the roots of the plants inside the panel.

Further, when the nutrient solution spraying mechanism moves to both ends of the chevron panel, its position is detected, and the drive motor of the self-propelled means is rotated in the reverse direction to reciprocate the nutrient solution spraying mechanism.

Embodiment A An embodiment of the present invention will be described in detail below with reference to the drawings.

An embodiment of the present invention is shown in FIGS. 1 to 4.

As shown in the figure, a rail 42 is provided on the floor inside the chevron panel 41 along the direction in which the chevron panel 41 extends.
A nutrient solution spray @ structure equipped with a self-propelled means is provided on the rail 42 along with the rail 42. That is, rail 4
A round frame 44 with wheels 43 is placed on top of the frame 44, and a support pipe 45 is erected on this frame 44.
Spray nozzles 46 are attached to both left and right sides of the nutrient solution spraying mechanism. Furthermore, the frame 44 has a variable speed
A reversible drive motor 47 is attached, and a sprocket 48 is fixed to the rotating shaft of this drive motor 47, and the upper surface of the sprocket 48 and a chain 49 laid along the extending direction of the chevron panel 41 are engaged with each other. ,
Self-propelled means are configured. Both ends of the chain 49 are fixed, and only the part that engages with the sprocket 48 is lifted up. Auxiliary sprockets 50 and 50 are provided before and after the sprocket 48 to prevent the chain 49 from lifting excessively.

On the other hand, a hanger rail 51 is provided on the upper part of the chevron panel 41.
A flexible hose 53 and a power cord 54 are suspended from the hanger rail 51 via a hanger roll 52, and one end of the flexible hose 53 is connected to a spray nozzle 46 via a support pipe 45. Further, the power cords 54 are connected to the drive motors 47, respectively. Since a large number of hanger rolls 52 are provided at appropriate intervals, as the nutrient solution spraying mechanism moves, the hanger rails 52
1 along with a flexible hose 53 and a power cord 54
to guide you. The other end of the flexible hose 53 is connected to a nutrient solution pressure pump (not shown), so that nutrient solution and the like can be supplied to the spray nozzle 46 via the hose 53. The other end of the power cord 54 is connected to a power source (not shown) and is controlled by signals from position detection means provided at both ends of the rail 42. That is,
As shown in FIGS. 3 and 4, proximity switches 55 for sensing metal are installed at both ends of the rail 42, while
A metal proximity switch striker is installed on the side of the pedestal 44.
56 is attached. When the proximity switch 55 detects that the nutrient solution spraying mechanism has moved to both ends of the rail 42, the phase of the alternating current supplied to the drive motor 47 is switched to reverse rotation, and the nutrient solution spraying mechanism is reciprocated. It is designed to let you do so. As the position detection means, it is preferable to employ the proximity switch 55 as in this embodiment because it is water resistant, but it is not limited to this, and limit switches, phototubes, etc. may also be used. The example hydroponic cultivation device is used as follows.

First, seedlings of plants such as Okayama salad greens and bibrex are inserted into the holes provided in the chevron panel 41, and light is irradiated with a lighting device (not shown). Next, power is supplied to the drive motor 47 to rotate the sprocket 48, and the chain 49
Move the pedestal 44 to the rail 42 while engaging it. When the proximity sensor 55 detects that the rail 420 has moved to both ends, the drive motor 47 is reversely rotated to cause the pedestal 44 to reciprocate. At the same time, since the nutrient solution is sprayed from the spray nozzle 46, it is uniformly distributed throughout the plants. On the other hand, flexible pose 53
Since the EC cable 541 and the hanger roll 52 automatically expand and contract following the pedestal 44, it does not interfere with reciprocating movement.

In the above embodiment, the drive motor 47. A sprocket 48 and a chain 49 are used, but since the chain 49 is laid on the floor, there is no need to adjust the tension of the chain 49, and the auxiliary sprocket 1.50.50 is also used. Since they are attached, there is no risk of the chain 49 and sprocket 4 coming off. Note that self-propelled means are not limited to those mentioned above, and there are a wide range of self-propelled means that can reliably move the liquid jet and mechanism, and that can also be moved back and forth.

<Effects of the Invention> As described above in detail based on the examples, according to the present invention, the g&liquid spraying mechanism is moved back and forth in the extending direction of the chevron panel to uniformly supply the solution to the entire plant. Therefore, we can provide plants with even growth.

Furthermore, we added a self-propelling means to the training spray mechanism, so! It would be possible to downsize the entire I-liquid supply mechanism.

[Brief explanation of the drawing]

FIGS. 1 and 2 are front and side views of a nutrient solution spraying mechanism according to an embodiment of the present invention, and FIGS. 3 and 4 are illustrative of a position detecting means according to an embodiment of the present invention. 5 and 6 are explanatory diagrams of a conventional hydroponic cultivation device, respectively, and FIG. 7 and 8 are a front view and a side view, and FIG. FIG. In the drawings, 41 is a chevron panel, 42 is a rail, 44 is a pedestal, 46 is a spray nozzle, 47 is a drive motor, 48 is a sprocket, 49 is a chain, 51 is a hanger rail, and 52 is a hanger roll. Figure 1 Figure 2 Figure 3 Figure 7] Procedures Amendment Book December 23, 1986

Claims (2)

[Claims] (1) A chevron panel with many holes formed by putting the upper ends of two panels together and supporting the plants by allowing the roots of the plants to protrude inward of the panel; In a hydroponic cultivation apparatus having a nutrient solution supply mechanism consisting of a nutrient solution pressure-feeding mechanism and a nutrient solution spraying mechanism for supplying a nutrient solution etc., the nutrient solution spraying mechanism is equipped with a self-propelled means to extend the chevron panel. 1. A hydroponic cultivation apparatus, characterized in that the device is capable of reciprocating in the directions, and further includes means for detecting the position of the nutrient solution spraying mechanism at both ends of the extended chevron-shaped panel. (2) In claim 1, the self-propelled means includes a drive motor attached to the lower side of the mount and a sprocket fixed to the rotating shaft of the drive motor, while
A hydroponic cultivation device capable of transmitting a chain between a chain laid along the extending direction of the chevron panel and the sprocket.