KR101907304B1 - Rotary Hydroponic Plant - Google Patents

Abstract

The present invention relates to a rotary hydroponic cultivation apparatus, and more particularly, Upper and lower rotation shafts rotatably installed on upper and lower portions of the support, respectively; A drive sprocket formed on both sides of the lower rotation shaft; A power generating unit for rotating the driving sprocket; A driven sprocket formed on both sides of the upper rotation shaft; A connecting member for connecting the driving sprocket and the driven sprocket on both sides, respectively; A plurality of harvesting means including a shaft having both ends connected to the connecting members on both sides and horizontally hinged to each other and a port formed on both sides of the upper portion of the shaft and storing the nutrient solution, A nutrient exchange section comprising a discharge section for discharging the nutrient solution and a fluid-dispensing section for injecting nutrient solution; A light source for irradiating the port with light; And a control unit for controlling the driving of the connecting member to temporarily stop and rotate the port in the nutrient exchange unit.

Description

[0001] The present invention relates to a rotary hydroponic plant,

The present invention relates to a rotary hydroponic cultivation apparatus, and more particularly, to a rotary hydroponic cultivation apparatus capable of efficiently utilizing a cultivation space of a plant by means of a cultivation means which is provided in a multistage and constituted by ascending and descending steel structures, ≪ / RTI >

Generally, in order to grow crops indoors, a light source for photosynthesis induction and a hydroponic cultivation device for supplying nutrients and water necessary for crop growth are indispensably required.

Prior art of hydroponic cultivation apparatus disclosed in Korean Patent Laid-Open No. 10-2013-0061562 "Plant cultivation apparatus".

Conventionally, a hydroponic cultivation apparatus has a compartment with a plurality of compartments on a rectangular frame, and a crop cultivation box or a pot is stacked in the compartment. The cultivation box or port stacked in the compartment of the frame supplies nutrient solution and water, So that it is possible to secure a sufficient light source necessary for the supply of light.

However, since the crop cultivation box is stacked in a fixed form, there is a disadvantage that the height of the frame stacking the cultivation box is limited to the height of the operator.

Meanwhile, when the height of the frame is raised to increase the stacking height of the cultivation box for the space utilization, an auxiliary facility such as a lift which can be lifted and lowered with the operator is required, Disadvantages are incurred, and there is a disadvantage in that the difference in temperature conditions between the bottom part and the top part causes a problem in growing the crops.

The present invention has been conceived to overcome the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for cultivating indoor crops, which can increase the water yield without being affected by the external environment and utilize multi- And the height of the port can be adjusted so as to be suitable for the position of the operator so that safe and convenient operation can be performed and mass production is possible even in a narrow space, thereby providing a rotary hydroponic cultivation apparatus free from the space limitation There is a purpose.

The above object of the present invention can be achieved by a support structure comprising: a support vertically installed on a ground; Upper and lower rotation shafts rotatably installed on upper and lower portions of the support, respectively; A drive sprocket formed on both sides of the lower rotation shaft; A power generating unit for rotating the driving sprocket; A driven sprocket formed on both sides of the upper rotation shaft; A connecting member for connecting the driving sprocket and the driven sprocket on both sides, respectively; A plurality of harvesting means including a shaft having both ends connected to the connecting members on both sides and horizontally hinged to each other, and a port formed on both sides of the upper portion of the shaft and storing the nutrient solution, A nutrient exchange section comprising a discharge section for discharging the nutrient solution and a fluid-dispensing section for injecting nutrient solution; A light source for irradiating the port with light; And a control unit for controlling the driving of the connecting member to temporarily stop the port and for controlling the rotation operation of the nutrient exchange unit.

Wherein the connecting member comprises: an inner plate and an outer plate symmetrically formed; Wherein a unit connection port constituted by upper and lower rollers coupled to the upper and lower portions of the inner plate and the outer plate is continuously and pin-coupled, and the drive sprocket and the driven sprocket And a bracket is formed on the inner plate, and an end of the shaft is coupled to the bracket.

A flange is formed on an outer surface of the inner plate to be bent, and a bracket is welded to the flange.

According to the present invention, it is possible to diversify the kinds of plants to be cultivated and to improve the environmental environment of the cultivation environment and the management efficiency, to shorten the copper line of the cultivator, to reduce the land capacity per cultivated area, .

      In addition, there is an advantage that various cultivation environments according to cultivation types can be easily provided through the control unit of the control box.

1 is a perspective view of a rotary hydroponic cultivation apparatus according to the present invention,
2 is a front view showing a rotary hydroponic cultivation apparatus according to the present invention,
3 is a side view of a rotary hydroponic cultivation apparatus according to the present invention,
4 is a partially enlarged exploded perspective view showing connection of ports in a rotary hydroponic cultivation apparatus according to the present invention.

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

The following terms are defined in consideration of the functions of the present invention, and they are to be construed to mean concepts that are consistent with the technical idea of the present invention and interpretations that are commonly or commonly understood in the technical field.

In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

Here, the attached drawings are exaggerated or simplified in order to facilitate understanding and clarification of the structure and operation of the technology, and the components do not exactly coincide with actual sizes.

1 is a perspective view of a rotary hydroponic cultivation apparatus according to the present invention, FIG. 2 is a front view showing a rotary hydroponic cultivation apparatus according to the present invention, and FIG. 3 is a side view showing a rotary hydroponic cultivation apparatus according to the present invention. And FIG. 4 is a partially enlarged exploded perspective view showing connection of ports in a rotary hydroponic cultivation apparatus according to the present invention.

1, the rotary hydroponic cultivation apparatus according to the present invention comprises: a support 2 vertically installed on the ground; Upper and lower rotation shafts 21 and 22 rotatably mounted on upper and lower portions of the support 2; A drive sprocket 3 formed on both sides of the lower rotation shaft 22; A power generating portion (4) for rotating the drive sprocket (3); A driven sprocket 5 formed on both sides of the upper rotating shaft 21; A connecting member (6) for connecting the drive sprocket (3) and the driven sprocket (5) on both sides respectively; A shaft 7 connected to both ends of the connecting member 6 so as to be horizontally hinged to each other and a link 82 connected to the shaft 7 are formed on both sides of the upper portion and a port 8 A nutrient exchange section 9 comprising a discharge section for discharging the nutrient solution of the port 8 and a fluid-dispensing section for injecting nutrient solution; A light source 10 for emitting light to the port 8; And a control section (11) for controlling the driving of the connecting member (6) to temporarily stop the nutrient exchange section (9) and to control the rotation operation of the port (8).

The support base 2 is formed by connecting iron beams in a lattice form and is installed to reach a predetermined height on the ground.

The lattice-shaped one-sided to six-sided surface made of the steel beam and made of the support base 2 are made of a transparent material or an opaque material (not shown) to form an inner portion so that the inside can be seen from the outside or can not be seen And the light source 10 may be installed inside to create an environment suitable for plant growth conditions such as temperature control according to the type of cultivation under control of the control unit 11 or the external temperature.

And upper and lower rotation shafts 21 and 22 which are respectively coupled to the upper and lower portions of the supporter 2 so as to be rotatable by bearings.

A driven sprocket 5 is mounted on both sides of the upper rotating shaft 21 and a driving sprocket 3 is mounted on both sides of the lower rotating shaft 22. [

The drive sprocket (3) and the driven sprocket (5) are formed in the shape of a spur gear having a plurality of teeth on the outer periphery.

The power generating unit 4 for rotating the driving sprocket 3 is a motor and further includes a speed reducer and is coupled to the lower rotating shaft 22 to exert rotational power.

The driving sprocket (3) and the driven sprocket (5) are connected to each other by a connecting member (6).

4, the connecting member 6 includes an inner plate 61 and an outer plate 62 which are symmetrically formed; And unit connection ports composed of upper and lower rollers 63 and 64 coupled to the upper and lower portions of the inner plate 61 and the outer plate 62 are continuously pin-coupled.

The sprockets of the drive sprocket 3 and the driven sprocket 5 are inserted into spaces between the upper and lower rollers 63 and 64 to transmit rotational force.

One end of the bracket 69 is integrally formed with the inner plate 61 and the flange 68 is welded to the other end of the bracket 69 to form a single body.

The flange 68 and the bracket 69 are formed to be substantially in the shape of a letter A and the flange 68 is formed in parallel with the inner plate 61 so that the end of the shaft 7 is engaged with the flange 68 A fitting ball is formed.

The flange 68 to which the end of the shaft 7 is coupled may be provided with a bearing.

The port 8 constituting the cultivation means is in the form of a box having a space therein and a link 82 formed on both sides is coupled to the shaft 7 by a bearing so that the port 8 is engaged with the shaft 7 / RTI >

Therefore, the port 8 can always be held in a horizontal state by the gravity, so that the connection member 6 connected to the drive sprocket 3 and the driven sprocket 5 can be turned upside down And can be safely rotated.

On the other hand, the discharging portion of the nutrient solution exchanging portion 9 includes a suction pipe 92 drawn into the port 8 and a suction pump 94 sucking and discharging the nutrient solution through the suction pipe 92.

The supply portion of the nutrient solution exchanging portion 9 includes a nutrient solution bottle 95 provided outside and a supply pump 96 for supplying the nutrient solution of the nutrient solution bottle 95 to the port 8, (97).

When the nutrient content of the nutrient solution in the port 8 is exhausted, the nutrient solution in the port 8 is discharged through the outlet portion.

Thereafter, a new nutrient solution is supplied to the port 8 through the liquid level portion to promote plant growth.

The control unit 11 is a control box and a switch is formed to control the ON / OFF of the power unit to select continuous rotation or pause.

And the exchange of the nutrient solution is performed in the suspended state.

It is also possible to harvest the crop of the port 8 in the suspended state.

It is to be understood that the present invention is not limited to the above-described embodiment and the accompanying drawings, and that various changes and modifications may be made without departing from the scope of the present invention, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

2: support 3: drive sprocket
4: Power generating unit 5: Suspension sprocket
6: connecting member 7: shaft
8: Port 9: Nutrient exchange part
10: light source 11:

Claims (4)

A support vertically installed on the ground;
Upper and lower rotation shafts rotatably installed on upper and lower portions of the support, respectively;
A drive sprocket formed on both sides of the lower rotation shaft;
A power generating unit for rotating the driving sprocket;
A driven sprocket formed on both sides of the upper rotation shaft;
A connecting member for connecting the driving sprocket and the driven sprocket on both sides, respectively;
A shaft having both ends connected to the connecting members on both sides and horizontally hinged to each other,
A plurality of cultivation means formed on both sides of the upper part of the shaft and connected to the shaft,
A nutrient exchange unit comprising a discharge unit for discharging the nutrient solution in the port and a fluid-dispensing unit for injecting nutrient solution;
A light source for irradiating the port with light;
And a controller for controlling the driving of the connecting member so as to temporarily stop and rotate the port in the nutrient exchange part,
The connecting member includes:
An inner plate and an outer plate symmetrically formed;
And a unit connection port constituted by upper and lower rollers coupled to the upper and lower portions of the inner plate and the outer plate,
And teeth of the driving sprocket and the driven sprocket are inserted into a space between the upper and lower rollers,
A bracket is formed on the inner plate, an end of the shaft is coupled to the bracket,
A flange formed on an outer surface of the inner plate to be bent, a bracket welded to the flange,
The flange and the bracket are formed in an 'a' shape,
The flange is formed parallel to the inner plate, the bearing is formed so that the end of the shaft is engaged with the flange,
The discharging portion of the nutrient solution exchanging portion,
A suction pipe drawn into the port, and a suction pump sucking and discharging the nutrient solution through the suction pipe,
The liquid-
A supply pump for supplying the nutrient solution of the nutrient bottle to the port, and a supply pipe for communicating with the port,
The port is in the form of a box having a space therein and the link formed on both sides is coupled to the shaft by a bearing so that the port can be rotated in a state of being coupled to the shaft,
The port can be held in a horizontal state at all times by gravity so that the connecting member connected to the driving sprocket and the driven sprocket can be rotated without being turned upside down during the rotational operation,
When the nutrient component of the nutrient solution of the port is exhausted, the nutrient solution is discharged through the outlet portion,
A new nutrient solution is supplied to the port through the liquid supply portion to promote plant growth,
The control unit is a control box,
A switch is formed to control the ON / OFF of the power section to select continuous rotation or pause,
And the harvesting operation of the nutrient solution or the crop of the pot can be harvested in the suspended state.

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