KR20140102161A - A seed-plot cultivation apparetus - Google Patents

Abstract

The present invention relates to a seedbed cultivation apparatus that comprises: a base (110); a driving part (120) arranged on a side of a lower part of the base (110); a first driving power transfer gear (G1); a second driving power transfer gear (G2); a plurality of seedbed trays (130); a seedbed cultivation liquid supply part (150); and a control part (1000) which controls the seed cultivation liquid supply part (150), the driving part (120), a timer (140), and a seedbed counter (160). When the seedbed cultivation apparatus is used, a user can finish growing seedlings in a short period of time. In addition, the apparatus has a simple structure and failure rate can be significantly reduced.

Description

A seed-plot cultivation apparetus}

More particularly, the present invention relates to a device for growing seedlings sown on a base plate while rotating a plurality of base plates in a rotary circulation manner, The present invention also relates to a mat cultivation apparatus that can efficiently perform growth and distribution in a narrow space.

As you know, rootstocks seeded on the seedlings have been cultivated in early spring as seedlings, or seedlings, in order to obtain rice, which has long been a stock in agriculture, and have been planted and transferred to rice fields.

Recently, as hydroponic cultivation of vegetables and cranes has become possible, a large amount of cultivated crops are being harvested using a narrow space even in a house or a building.

In other words, water culture (hydroponics) is a method of raising plants in a culture medium made of water and water-soluble nutrients without using soil. If you take advantage of hydroponics, you can directly observe the state of roots and growth Can produce clean, uncontaminated vegetables and crops, and can be grown easily in the house or in a given mining building.

Plants that can be hydroponically cultivated include monocotyledonous plants, which are mostly rooted in beech roots. Hydroponics such as tulips, hyacinths, and daffodils, and other vegetables such as pineapples, taro, sweet potatoes, onions and bean sprouts , Grasses such as begonia, violet, geranium, marigold, ferrules such as ferreromia, ivy, and luck are all hydroponic cultivars.

When used for hydroponic cultivation, it is difficult to know what nutrients are necessary for plant growth and how it affects plants when growing plants in the soil. This is because the soil already contains various kinds of nutrients, so it is not clear how the artificially supplied nutrients (fertilizer components) are affected.

Therefore, the nutrients necessary for the growth of plants and their functions can be found by comparing the plants cultivated by hydroponics with the cultures prepared by cultivating the nutrients of all the nutrients necessary for the growth of the plants.

As described above, Korean Patent No. 10-1021136 (name: continuous growing apparatus for raw materials) is disclosed as a technique related to hydroponic cultivation.

In the prior art, in order to swing the base plate, a drive for lowering the base plate at the position of the water supply unit, a method for raising the base plate to allow the base plate to enter the normal track from the water supply unit There is a problem in that a manufacturing cost is increased because the operation part of the component is required, and in particular, malfunction occurs in the process of being guided and raised to the water supply side as described above.

In addition, there is a problem that noise caused by friction of the base plate occurs while rotating along the guide rail, and the chain that drives the base plate rotates while placing the base plate on the guide rails, but substantially transfers the long section of the cultivation apparatus, The sagging is generated by the overall weight of the sludge tank. Such sagging is difficult to smoothly transfer the sludge, so frequent repairs are required.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a device for growing seedlings seeded on a base plate while rotating a plurality of base plates in a rotary circulation manner, And it is an object of the present invention to provide a mat cultivation apparatus that enables a cultivation solution to be supplied for a given time, and can be efficiently grown and shipped efficiently in a narrow space.

Another object of the present invention is to minimize the occurrence of sagging of the chain occurring during the feeding of the base plate by the feeding chain while driving the cultivation apparatus and to prevent friction and noise between the base plate and the guide rail.

According to an aspect of the present invention, there is provided a base plate cultivation apparatus comprising: a base having track-type first and second guide rails provided on an upper portion thereof; A driving unit provided at a lower side of the base; A first power transmission gear rotatably installed on the base from the driving unit; A second power transmission gear corresponding to the first power transmission gear and rotated in a reciprocating manner as a transfer chain; A plurality of basin trays corresponding to the pair of casters at the bottom so as to circulate along the first and second guide rails of the base; A tablet supplying unit for supplying a liquid nutrient to a tablet plate installed at a side of a base on which the tablet tray is circulated, the tablet being set in a tablet tray, and setting a timer and a tablet counter; And a control unit for controlling the base plate re-circulating liquid supply unit, the driving unit, the timer, and the base plate counter.

The base plate cultivation apparatus according to the present invention is configured such that the base plate on the base plate tray, which is connected to the transport chain and is pivotally connected to each other, is supplied from the top by the timer and the counter, Unlike the conventional method in which only the root part is immersed, the supply from the upper part of the seedling to the root is uniformly performed, so that the growth of the seedling can be completed within a short period of course. It has the productivity to help the development and hasten the release.

In addition, when turning the base plate tray, the transport chain is made of a synthetic resin material, so that stable engagement with the power transmission gear, minimization of frictional force by the rolling balls from the base, and movement of the bottom of the base plate tray , Noise and friction can be reduced and a quiet environment can be created.

Particularly, the supply of the reflux liquid in the turning of the stable trays of the trays has the effect of simplifying the design of the apparatus and significantly reducing the failure rate because the position of the trays is lowered and the position of raising the trays is unnecessary.

1 is a block diagram schematically showing a bottom plate cultivation apparatus according to the present invention,
FIG. 2 is a plan view showing a base plate cultivation apparatus of the present invention,
FIG. 3 is a perspective view showing a main portion of a base plate cultivation apparatus according to the present invention,
4 is a bottom perspective view showing a state in which the base plate tray is supported by the guide rails in FIG. 4,
5 is an exploded perspective view showing a connection state of the transfer chain according to the present invention,
Figure 6 is a plan view and front view of the transfer chain in Figure 5,
7 is a sectional view taken along the line AA and BB in Fig. 6,
Fig. 8 is an enlarged cross-sectional view of an example of installing and installing the rolling ball in Fig. 6,
FIG. 9 is a side view showing an example of a multi-stage construction of a mat cultivation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

The base plate cultivation apparatus of the present invention comprises: a base 110 having track-type first and second guide rails 111 and 112 provided on an upper portion thereof; A driving unit 120 provided at a lower side of the base 110; A first power transmission gear G1 rotatably installed on the base 110 from the driving unit 120; A second power transmission gear G2 which is associated with the first power transmission gear G1 and meshed with the transmission chain 100 and rotates together; A pair of casters (not shown) are installed on the bottom of the conveying chain 100 so as to circulate along the first and second guide rails 111 and 112 of the base 110, 132) corresponding to each other; A base plate 110 installed at one side of the base 110 through which the basin tray 130 circulates and supplying liquid nutrients to the basin M accommodated in the basin tray according to the set time of the timer 140 and the basin counter 160, A remediation liquid supply unit 150; And a control unit 1000 for controlling the bottom plate remover solution supply unit 150, the driving unit 120, the timer 140, and the basin counter 160.

The driving unit 120 represents a driving motor including a reduction gear for adjusting the rotational speed of the base plate tray.

The mother liquor rebalancing solution supply unit 150 includes a plurality of nozzle units 152, a liquid supply unit 153 connected to the nozzle unit side by a supply hose h to supply a mother liquor solution, And a support 151 for supporting the base 152 on the base 110.

When the configuration of the conveyance chain 100 for conveying the basin tray 130 is considered, a semicircular round assembly 12 is formed on both sides of the conveyance chain 100, which is integrally formed by an injection mold with a plastic- Like plates 10 are formed to face each other.

In the middle of the plates facing each other as described above, a cylindrical shaft portion 14 for maintaining the interval of the plate 10 is formed. On the long side of one of the plates, A connecting piece 16 for mounting the fixing pin P is formed.

The round assembly 12 is divided into an arm assembly 12-1 and a male assembly 12-2 with respect to the shaft 14. The arm assembly 12-1 includes a plate 10 An auxiliary assembly 12b is formed at the center of the first rotation supporting step 12a and the male assembly 12-2 is assembled with the arm assembly 12a, A semicircular second rotation supporting step 12c is formed on the outer side of the plate 10 so as to be opposite to the first rotation supporting step 12a of the part 12-1 and the second rotation supporting step 12c is formed at the center of the second rotation supporting step 12c The assembling protruding portion 12d is protruded.

A guide protrusion 12a 'inclining toward the assembling hole 12b is formed in the first rotation supporting step 12a of the arm assembling part 12-1 and an assembling protrusion 12b' 12d are guided by the guide protrusions 12 'and are guided and assembled into the assembly holes 12b. A connecting piece 16 is formed on a long side of one of the plates, A fixing pin P for inserting the coupling hole 131 of the base plate tray 130 is inserted into the connecting piece 16 and a base plate 110), and a rolling cloud ball (B) is inserted and installed.

The operation of driving the bottom plate cultivating apparatus according to the present invention constructed as described above will be described as follows.

First, the base plate cultivating apparatus according to the present invention can be produced as a single layer or as shown in FIG. 9 in a multi-layer structure, so that seedlings can be cultivated through a large number of base plates M with respect to a space.

The number of installed basin trays 130 through the control unit 1000 and the timer 140 and the rotational speed are adjusted to drive the basin tray 130 at predetermined time intervals through the driving unit 120 provided below the base 110 By supplying the nutrients to grow seedlings while turning, that is, cultivation liquid, it is possible to grow seedlings within a certain period of time.

The first power transmission gear G1 on the rotating shaft through the driving unit 120 and the second power transmission gear G2 corresponding to the second power transmission gear G2 on the rotating shaft are rotated by engaging the transport chain 100, And the rolling balls B provided at the bottom of the rolling balls contact the base 110 to slide the top plate tray 130 while minimizing the friction as sliding.

The swivel tray 130 is rotated while the caster 132 provided at the bottom of the swivel tray 130 is rolling along the first and second guide rails 111 and 112 of the base 110.

The bottom plate remover solution supply unit 150 installed on one side of the base 110 is connected to the bottom wall of the base 110 by a showering method using a liquid solution supplied from a liquid solution supply pipe 153 connected with a supply hose h through a plurality of nozzle units 152, , It is possible to provide nutrients to the seedlings by spraying the seedlings planted on the upper part of the seedlings.

In such a case, the cultivation solution is directly sprayed on the seedling of the matrix M, and at the same time, some cultivation solution is left in the tray tray, so that the nutrient solution is supplied, thereby optimizing the growth and development of seedlings planted in the matrix.

In this manner, the preset number of the basin tray 130 is set in the control unit 1000, and the nutrient supply and control can be performed while periodically moving through the timer 140 and the counter 160 for a predetermined time.

The transfer chain 100 for transferring the base plate tray 130 is injection-molded from a plastic material of a synthetic resin type. The transfer chain 100 is more expensive than the combination of the connecting link, the connecting pin, and the cylindrical roller, It is possible to omit the process of assembling each constituent element, thereby providing a remarkable advantage in terms of productivity.

The synthetic resin material for manufacturing the transfer chain 100 is an engineer plastic widely used and has advantages of low durability and abrasion, and also has an advantage that it can be injected with an accurate standard in injection molding.

The conveying chain 100 according to the present invention can be used for power transmission as described above by forming the respective blocks into a single block and connecting them together by a required length. By adopting a rolling ball, The turning of the chain can be performed more smoothly

In the plate 10 constituting the transfer chain 100, the combination of the round assemblies 12 is configured such that the arm assemblies 12-1 of the transfer chains 100 formed in each unit are connected to the male assemblies 12 -2 so that the assembling protruding portion 12d formed on the second rotation supporting step 12c of the male fitting portion 12-2 is connected to the first rotation supporting step 12a of the arm assembling portion 12-1 The assembled protruding portion 12d is elastically received by the assembling hole 12a 'of the first rotatable support protrusion 12a when the inclined surface 12d' of the assembled protruding portion 12d is pushed into the guide protrusion 12 ' The insertion is made and the connection is made.

Therefore, by merely assembling the arm assembly 12-1 in conformity with the male assembly 12-2, the operation becomes relatively simple, the transfer chain is extended by the required length, and finally, The first power transmission gear G1 and the second power transmission gear G2 located on the left and right sides as a combination of the first and second power transmission gears 12-1 and 12-2, do.

In the transfer chain 100 thus combined, tooth portions of the first and second power transmission gears G1 and G2 are formed in the shaft portion 14 that maintains a gap between the plates 10 corresponding to each other Which is guided differently from the method of engaging the sprocket or the gear with the transport chain made of a general metal material.

That is, the arm assembly and the male assembly of the transfer chain are rotated with respect to the outer diameters of the first and second power transmission gears, respectively, and the transfer chain is moved while stably holding the gear teeth. It is possible to prevent a case where the transfer chain is separated from the first and second power transmission gears.

In addition, since the conveyance chain according to the present invention is less likely to cause deflection unlike a metal chain, it can stably rotate the tray trays for conveying clouds to the first and second guide rails, minimizing the occurrence of failures in the turned parts .

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: Feed chain 110: Base
111: first guide rail 112: second guide rail
120: driving part 130:
140: Timer 150: Feeding liquid
160: Counter 1000: Control section
B: cloud ball M:
P: Fixing pin

Claims (3)

A base 110 on which track-type first and second guide rails 111 and 112 are installed;
A driving unit 120 provided at a lower side of the base 110;
A first power transmission gear G1 rotatably installed on the base 110 from the driving unit 120; A second power transmission gear G2 which is associated with the first power transmission gear G1 and meshed with the transmission chain 100 and rotates together;
A pair of casters (not shown) are installed on the bottom of the conveying chain 100 so as to circulate along the first and second guide rails 111 and 112 of the base 110, 132) corresponding to each other;
A base plate 110 installed at one side of the base 110 through which the basin tray 130 circulates and supplying liquid nutrients to the basin M accommodated in the basin tray according to the set time of the timer 140 and the basin counter 160, A remediation liquid supply unit 150;
And a control unit (1000) for controlling the bottom plate remover solution supply unit (150), the driving unit (120), the timer (140) and the basin counter (160). The method according to claim 1, wherein the bottom plate rehydration solution supply unit (150) comprises a plurality of nozzle units (152), a liquid supply pipe (153) connected to the nozzle side by a supply hose (h) And a support table 151 for supporting the nozzle unit 152 on the base 110. The apparatus of claim 1, The conveyance chain (100) according to claim 1, wherein the conveyance chain (100) is integrally formed by an injection mold with a plastic-based synthetic resin material and includes a flat plate (10) having a semicircular round assembly (12) And are formed to face each other,
A cylindrical shaft portion 14 is formed at the center of the plates facing each other to maintain a distance between the plates 10 and a fixing pin (not shown) is formed at a long side of one of the plates to connect and support the plate tray 130 P), and a connecting piece 16 for mounting
The round assembly 12 is divided into an arm assembly 12-1 and a male assembly 12-2 with respect to the shaft 14. The arm assembly 12-1 includes a plate 10 An auxiliary assembly 12b is formed at the center of the first rotation supporting step 12a and the male assembly 12-2 is assembled with the arm assembly 12a, A semicircular second rotation supporting step 12c is formed on the outer side of the plate 10 so as to be opposite to the first rotation supporting step 12a of the part 12-1 and the second rotation supporting step 12c is formed at the center of the second rotation supporting step 12c An assembling protruding portion 12d is formed to protrude,
A guide protrusion 12a 'inclining toward the assembling hole 12b is formed in the first rotation supporting step 12a of the arm assembling part 12-1 and an assembling protrusion 12b' 12d are guided by the guide protrusions 12 'to form an inclined surface 12d' for guiding and assembling to the assembly hole 12b,
A connecting pin 16 is formed on the long side of one of the plates and a fixing pin P for inserting the coupling hole 131 of the base plate tray 130 is inserted into the connecting piece 16, Wherein a rolling ball B is inserted into the bottom surface of the plate corresponding to the plate on which the fixing pin P is installed so as to be in close contact with the upper surface of the base 110. [

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