KR20070081512A - Hydroponics cultivation system - Google Patents

Abstract

A hydroponic cultivation system designed to move a plurality of cultivating sieves by the rate of plant growth is provided. The system produces fresh plants nearly all the year round without being interfered by adjacent plants. A hydroponic cultivation system comprises: a body(10) comprising an upper frame(12) and lower frame(14); a plurality of reciprocating wood shafts(20) placed at the upper part of a transfer roller(72) of the upper frame and formed with a transfer plastic at regular intervals; a rotating transfer device(30) fixedly connected with a rack gear(32) at the reciprocating wood shafts on one side and rotated by a drive shaft(36) with a sprocket(38) on one side; a power device(40) with a motor(42) and a sprocket(44); and a cultivating sieve(50) mounted at the upper part of an operating frame(12) and formed with a hook jaw. A flowerpot containing plants is placed in a cut part of the cultivating sieve.

Description

Hydroponic cultivation system {Hydroponics cultivation system}

1 is a perspective view showing a conventional hydroponic cultivation device.

Figure 2 is a side view showing a hydroponic cultivation apparatus of the present invention.

Figure 3 is a sectional view of the hydroponic cultivation apparatus of the present invention.

Figure 4 is a front view showing a support state of the reciprocating rod shaft of the hydroponic cultivation apparatus of the present invention.

Figure 5 is a side view showing the reciprocating rod shaft of the hydroponic cultivation apparatus of the present invention.

6 and 7 is a block diagram showing a link device of the hydroponic cultivation apparatus of the present invention.

8 is a front view showing a conveying means and a power means of the hydroponic cultivation apparatus of the present invention.

9 is a perspective view showing a cultivation of the present invention.

※ Explanation of code for main part of drawing

1: hydroponic cultivation device 10: main body

12: upper frame 14: lower frame

20: reciprocating rod shaft 22: transfer plastic

30: transfer means 32: rack gear

34: pinion 36: drive shaft

38, 44: sprocket 40: power means

42: motor 50: planting

52: incision 54: locking jaw

62: drip bucket 64: shield

72: roller 74: bracket

80: link device

The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation apparatus capable of planning production of fresh plants that do not interfere with the next plant during the four seasons by moving a plurality of cultivation in accordance with the growth rate of the cultivated plant.

In general, hydroponic cultivation means that nutrients required by various crops are directly supplied to the roots of crops planted in a hydroponic cultivation pot. The roots of crops planted in pots are formed to receive nutrients in the nutrient solution.

1 is a view showing a conventional hydroponic cultivation apparatus. The conventional hydroponic cultivation apparatus 100 reduces the power generated by a motor, and is connected to the chain sprocket 320 installed on the moving means 300 through the chain 200. Power means (not shown) for rotating the chain and the chain sprocket 320 is connected to the chain sprocket of the power means by a chain 200, a plurality of removable brackets 340 installed at a predetermined interval on the chain 200 ) Is composed of a cultivation moving means 300 for moving at a constant speed.

The culture medium of the culture solution tank is fixed to the water supply pipe 620 by the operation of the motor pump 500 to the culture medium 400 respectively fixed to the detachable bracket 340 of the culture medium moving means 300. It consists of a culture medium supply means 600 for supplying through a plurality of supply nozzles (640) installed in 620.

However, the conventional hydroponic cultivation system is the size of the cultivation plant at the time of harvest depending on the hydroponic cultivation plant. In addition to the cultivation device used in the conventional hydroponic cultivation system, the chain transfer device requires 100 ~ 200m of chain and chain sprocket for each cultivation. Noise may occur seriously, and due to moisture or a moderate temperature, rust may occur, resulting in a reduction in the service life of the machine and a high repair cost.

The present invention has been made to solve the above problems, to provide a hydroponic cultivation apparatus capable of planning production of fresh plants that do not interfere with the next plant for four seasons by moving a plurality of cultivation at the growth rate of the cultivated plants There is a purpose.

In order to achieve the above object, the present invention, in the hydroponic cultivation apparatus for cultivating plants, the main body consisting of the upper frame and the lower frame, and the transfer plastic interposed on the upper portion of the transfer roller formed on the upper frame at a predetermined interval A plurality of reciprocating rod shaft is formed, and the rack gear is fixedly coupled to the reciprocating rod shaft on one side, the pinion is sequentially coupled to the rack gear, the pinion is transported by the drive shaft is provided with a sprocket on one side Means, a motor in which the sprocket is provided in the same line as the sprocket of the transfer means, and the power means connected to the sprocket and the sprocket through the chain, and is mounted on the upper portion of the movable frame and cut in a predetermined interval on the upper portion In the horizontal direction, the jaw comprises a cultivation that is formed to protrude It features.

Hereinafter, the configuration of the present invention with reference to the accompanying Figures 2 to 4 as follows.

Hydroponic cultivation apparatus 1 of the present invention is a main body 10 consisting of the upper frame 12 and the lower frame 14, and the reciprocating rod shaft 20 is installed on the upper frame 12 to perform the forward and backward reciprocating motion (20) ), A transfer means (30) for forward and backward operation on the reciprocating rod shaft (20), a power means (40) for transmitting power to the transfer means (30), and seated on the upper frame (12) It can be roughly classified into a cultivation body 50 in which a potted plant is grown.

The main body 10 is composed of an upper frame 12 and a lower frame 14. First, the lower frame 14 has a plurality of vertical plates 142 and the vertical plates 142 having a predetermined height. In order to limit the movement of the) is formed of an intermediate plate 144 is coupled between the vertical plate 142. At this time, the bottom of the vertical plate 142 is provided with a vertical bar 146, the height of which can be adjusted for horizontal adjustment.

The upper frame 12 has an upper bar 122 and the upper bar 122 to be coupled to the upper portion of the vertical plate 142 has a predetermined height and the height bar 124 is installed on both sides in the longitudinal direction in the middle and Consists of the cultivation 50 is transferred to the longitudinal top of the height bar (124).

And both sides of the upper frame 12 is provided with a sump container 62 for receiving the water flowing from the cultivation 50 and the protective plate 64 to protect and clean the cultivation 50 do.

In addition, the height bar 124 is provided with a roller 72 for transporting and supporting the reciprocating rod shaft 20 and will be described with reference to Figure 4 shown in the configuration is a plurality of the height bar 124 The bracket 74 is fixedly installed at a predetermined interval, and the roller 72 is fixedly installed at the end of the bracket 74.

A plurality of reciprocating rod shafts 20 interposed between the rollers 72 on the height bars 124 and moving forward and backward are formed to have a predetermined thickness and are transported to the side of the reciprocating rod shafts 20. The interval 22 is installed and conveyed is described below with reference to FIG. 5.

The conveying plastic 22 installed on the reciprocating rod shaft 20 is sequentially provided with a conveying plastic 22 at a 75 mm interval on the first reciprocating rod shaft 20 and a conveying plastic at a 90 mm interval on the second reciprocating rod shaft 20. (22) is installed and the transfer plastic 22 is installed on the third reciprocating rod shaft 20 at 120 mm intervals, the transfer plastic 22 is installed on the fourth reciprocating rod shaft 20 at 150 mm intervals and the fifth reciprocating rod shaft ( 20, the conveying plastic 22 is installed at intervals of 180mm.

In the present invention, the number of the reciprocating rod shaft 20 is five, but if necessary, the reciprocating rod shaft 20 is formed in a small or large number, and the distance is also different depending on the cultivated plant, and the transport plastic 22 is installed. It can be.

The conveying plastic shaft 22 in which the reciprocating rod shaft 20 is installed at the side is pressed when the reciprocating rod shaft 20 is operated backward, and is fixed when the reciprocating rod shaft 20 is moved forward to be fixed. ) Will be transferred. That is, when the reciprocating rod shaft 20 is retracted, the conveying plastic 22 does not receive a force and is fixed by the stopper 21 fixed to one side of the conveying plastic 22 when the reciprocating rod shaft 20 is advanced. As a result, the governing body 50 is advanced.

Between the end and the end of the reciprocating rod shaft 20 formed of a plurality is provided with a link device for adjusting the length there are a number of configurations, but here shown in Figure 6 and 7 are two embodiments by reference This will be described with reference.

The linkage device 80 is fixed to each reciprocating rod shaft 20 and is interposed in the fixed plate 82a and the guide groove 822a formed therein and the fixed plate 82a and the guide groove 822a. A fixing bar 86a having a movable bar 84a provided with a bolt 844a on one side and a groove 866a through which the bolt 844a penetrates is fixed to the reciprocating rod shaft 22 and on one side thereof. ) And a nut 88a that is fastened to the bolt 844a and fixed to the fixing bar 86a to limit the movement of the movable bar 84a.

That is, after adjusting the length of the bolt (844a) provided in the movable bar (84a) to adjust the length to the structure to fix the nut (88a) to the fixing bar (86a).

In another embodiment, the link device 80 is fixed to one side of the reciprocating rod shaft 20 and a fixing portion 82b having a binding groove 822b at a predetermined interval, and fixed to the other reciprocating rod shaft 20 and guided. The movable part 84b in which the groove 844b is formed, and the stopper 86b which is interposed in the guide groove 844b of the said movable part 84b, and is fixed to the said binding groove 822b.

The transfer means 30 and the power means 40 will be described with reference to FIG. 8 as shown. First, the transfer means 30 for forward and backward operation of the reciprocating rod shaft 20 are formed on both sides. The rack gear 32 is fixed to the reciprocating rod shaft 20 is formed, the position is preferably fixed to the side of the first reciprocating rod shaft 20, the rack gear 32 is pinion (34) Is fastened.

In addition, the pinion 34 is coupled to the drive shaft 36 to rotate the pinion 34, and one side of the drive shaft 36 is provided with a sprocket 38 for receiving power.

In further detail, when the rotational force is transmitted through the sprocket 38, the drive shaft 36 rotates, and the pinion 34 connected to the drive shaft 36 moves the rack gear 32 forward or backward. It is to be made.

Power means 40 for transmitting power to the transfer means 30 is coupled to the sprocket 44 and the sprocket 44 formed on the same line as the sprocket 38 of the transfer means 30 to transfer power. The motor 42 and the chain 46 is connected to the sprocket 38 and the sprocket 44. At this time, the motor 42 is effectively formed of a reduction motor.

The plant 50 is placed on the upper frame 12 and the plant is interposed with a potted plant in which the plant is cultivated. Referring to FIG. 9, the cutout 52 is formed at a predetermined interval in the upper portion and horizontally in the lower portion. The locking jaw 54 is protruded, and a blocking film 56 is formed between the cutout 52 and the locking jaw 54.

That is, the cutout 52 is interposed with a flower pot, and when the water is supplied to the flower pot, the water flows into the both sides by the barrier film 56, instead of flowing down to the bottom, and is formed in the upper frame 12. Will flow).

At this time, the cutout 52 formed on the upper side of the cutout 52 is formed on the next cultivation 50 so as to prevent the plants of the lateral cultivation 50 from interfering. It is desirable to form a constant between the cut portions 52 of the.

Referring to the preferred embodiment of the hydroponic cultivation apparatus of the present invention as described above is as follows and the assembly process is revealed that may vary.

First, the lower frame 14 is installed to be interposed with a plurality of vertical plates 142 formed with a predetermined height and an intermediate plate 144 coupled between the vertical plates 142.

And the height bar 124 and the height bar 124 having a predetermined height in the upper bar 122 and the upper bar 122 to be coupled to the upper portion of the vertical plate 142 is installed on both sides in the longitudinal direction. Install the upper frame 12 consisting of the cultivation 50 is transferred to the longitudinal top of the. At this time, both sides of the upper frame 12, the drip tray 62 and the protective plate 64 is installed together to complete the installation of the main body 10.

A plurality of brackets 74 are fixed to the height bar 124 at regular intervals, and rollers 72 are fixed to the ends of the brackets 74.

Next, the roller 72 of the upper frame 12 is interposed with a plurality of reciprocating rod shaft 20, the first reciprocating rod shaft 20 sequentially in one direction of the transport plastic 22 installed in the reciprocating rod shaft 20 ), The feeding plastics 22 are installed at 75 mm intervals, and the feeding plastics 22 are installed at the second reciprocating rod shaft 20 at 90 mm intervals, and the feeding plastics 22 are installed at the third reciprocating rod shaft 20 at 120 mm intervals. The fourth reciprocating rod shaft 20 is provided with a conveying plastic 22 at intervals of 150 mm, and the fifth reciprocating rod shaft 20 is provided with a conveying plastic 22 at intervals of 180 mm.

Between the end and the end of the plurality of reciprocating rod shaft 20 is formed a link device for adjusting the length 80 is to adjust the reciprocating rod shaft 20 to the required length.

And the rack gear 32 is fixed to the first reciprocating rod shaft 20 and the pinion 34 is fastened to the rack gear 32, the pinion 34 is driven to rotate the pinion 34 36 is coupled to one side of the drive shaft 36 is provided with a sprocket 38 for receiving power.

In addition, the sprocket 44 formed on the same line as the sprocket 38 of the transfer means 30 and the motor 42 and the sprocket 38 and the sprocket 44 which transmit power by combining with the sprocket 44. The hydroponic cultivation apparatus 1 according to the present invention is completed when the power means 40 is installed in the state in which the power means 40 is connected to the upper frame 12 through the cultivation medium 50.

In this case, the cutout 52 formed on the upper portion of the cutout 52 is constantly formed between the cutouts 52 of the side grower 50 to prevent the plants of the side grower 50 from interfering with each other. do.

When operating the hydroponic cultivation apparatus of the present invention as described above, as the incision of the plurality of cultivation seated on the upper part of the upper frame of the main body, the pots containing the plants are interposed at regular intervals.

After a certain period of time, when the plant grows and it is time to control the cultivation and spacing, first of all, the rack gear is advanced by the power transmitted through the power means and the conveying means. It is moved to the reciprocating rod shaft which is formed of the transport plastic at intervals.

In other words, the cultivation arrived between the reciprocating rod shaft and the reciprocating rod shaft is the transfer gear reciprocating rod shaft, which is installed at the 90 mm intervals while the rack gear is reversed, is placed on the bottom of the plant and the rack gear is moved forward, the 90 mm One of the cultivation is to move forward by the transfer plastic of the rack gear is to transfer the cultivation of the upper frame one by one through the repeated operation of the forward, backward.

As described above, when transferring the transfer plastic reciprocating rod shafts installed at intervals of 90 mm from the transfer plastic reciprocating rod shafts installed at intervals of 90 mm, the rack gear may be repeatedly moved forward and backward as before.

According to the present invention, by moving a plurality of cultivation in accordance with the growth rate of the cultivated plant, there is an effect that can be planned production during the four seasons fresh plants that do not interfere with the next plant.

Claims (6)

In the hydroponic cultivation apparatus (1) for growing plants, A main body 10 composed of an upper frame 12 and a lower frame 14; A plurality of reciprocating rod shafts 20 interposed on an upper portion of the conveying roller 72 formed on the upper frame 12 and having a conveying plastic 22 formed at a predetermined interval; The rack gear 32 is fixedly coupled to the reciprocating rod shaft 20 on one side, and the pinion 34 is sequentially coupled to the rack gear 32, and the pinion 34 is provided with a sprocket 38 on one side thereof. A conveying means 30 which is rotated by the driving shaft 36; The motor 42 which is provided with the sprocket 44 in the same line as the sprocket 38 of the transfer means 30, and the power means 40 is connected to the sprocket 38 and the sprocket 44 through a chain 46. )and; A cultivation body 50 seated on an upper portion of the movable frame 12 and having an incision 52 formed at a predetermined interval on an upper portion thereof, and a locking jaw 54 protruding from the lower portion in a horizontal direction; Hydroponic cultivation apparatus comprising a. The method of claim 1, Hydroponic apparatus, characterized in that the drip tray (62) is installed in the vertical direction on both sides of the upper frame (12) of the main body (10). The method of claim 1, The distance of the transport plastic 22 installed on the side of the reciprocating rod shaft 20 formed in plural is formed to be cultivated in five stages such as 75, 90, 120, 150, 180mm, or to be cultivated in a range beyond that. Hydroponic cultivation apparatus, characterized in that the distance of the conveying plastic 22 is formed to be adjustable. The method of claim 1, Hydroponic cultivation device, characterized in that the link device for adjusting the length is provided between the end and the end of the reciprocating rod shaft 20 is formed in plurality. The method of claim 4, wherein the link device 80, A fixing plate 82a fixed to each reciprocating rod shaft 20 and having a guide groove 822a formed therein; A movable bar 84a interposed between the guide grooves 822a of the fixing plate 82a and provided with a bolt 844a at one side thereof; A fixing bar 86a fixed to the reciprocating rod shaft 20 and having a groove 866a through which the bolt 844a penetrates; A nut 88a which is fastened to the bolt 844a and fixed to the fixing bar 86a to limit the movement of the movable bar 84a; Hydroponic cultivation apparatus comprising a. The method of claim 3, wherein the link device 80, A fixing portion 82b fixed to one side reciprocating rod shaft 20 and having a binding groove 822b formed at a predetermined interval; A movable part 84b fixed to the other reciprocating rod shaft 20 and having a guide groove 844b formed therein; A stopper 86b interposed in the guide groove 844b of the movable portion 84b and fixed to the binding groove 822b; Hydroponic cultivation apparatus comprising a.

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