KR100759071B1 - The equipment for cultivation to a sprout and baby-vegetables - Google Patents

Abstract

The present invention relates to a cultivation facility capable of simultaneously growing sprouts and baby vegetables.

The sprout and baby vegetable cultivation facility of the present invention, in the cultivation facility is configured to perform a greenhouse role to combine the glass panel forming a roof on both sides of the support frame to grow sprouts and baby vegetables;

In addition, the cultivation space portion is formed by the shading means so that different cultivation environments can be applied to the inside of the cultivation facility, and each moving plate having a cultivation port in each cultivation space portion has a weak solar light source. Moving cultivation conveyor is configured to be cultivated from seed to sprout and baby vegetable according to the sequential movement to the top of the cultivation facility irradiated with direct solar light source through the glass panel of the roof from the bottom of the facility.

At this time, the lower side of the roof made of the glass panel is further provided with a glass window opening and closing means for opening and closing the glass window by a motor drive so as to be connected to the glass window ventilation and natural atmosphere circulation inside the cultivation facility, each cultivation The upper part of the space is characterized in that it is further provided with a light shielding screen for blocking the solar light source irradiated through the roof to control the different cultivation environment and seed germination.

In addition, the moving cultivation conveyor is a multi-stage frame formed with a moving plate body moving passages at both ends while the rail is formed on the upper side to enable the sequential movement from the lower end of the cultivation facility; Horizontal driving means installed on each end of the frame to sequentially move a moving plate body placed on a rail; Vertical driving means installed on each other side of the frame to vertically move the moving plate body horizontally moved to the frame side of the upper end; It is characterized by consisting of a nutrient solution supply means for supplying nutrients in accordance with the cultivation state of seeds or sprouts and baby vegetables in the cultivation port of the moving plate body is installed to be moved up and down on both sides of the frame sequentially moved.

Therefore, according to the present invention, the growth and cultivation from the seed to the shoot and the baby vegetable is made in one cycle, and the sprout or baby vegetable grown in the moving cultivation conveyor of the one-cycle structure as described above, the sprout or It is possible to separate them by baby vegetables, etc., and can be shipped outside, and in particular, it is possible to simultaneously cultivate a variety of sprouts and baby vegetables of different cultivation environments in one cultivation facility.

Greenhouse, cultivation facility, sprout, baby vegetable, shading curtain, moving wall, window opening and closing means, moving cultivation conveyor, moving plate body, nutrient solution supply means

Description

The equipment for cultivation to a sprout and baby-vegetables}

1 is a schematic view and detailed view of the sprout and baby vegetable cultivation plant of the present invention.

Figure 2 is a perspective view of the shading curtain of the sprout and baby vegetable cultivation plant of the present invention.

Figure 3 is a detailed view and the installation state of the window opening and closing means of the sprout and baby vegetable cultivation plant of the present invention.

Figure 4 is a configuration of the moving cultivation conveyor of the sprout and baby vegetable cultivation plant of the present invention.

5 is a cross-sectional perspective view of the moving plate body applied to the moving cultivation conveyor of FIG.

6 is a detailed view and a side view showing an upper movement path of the moving plate body of the moving cultivation conveyor of FIG.

Figure 7 is another embodiment of the nutrient solution supply means of the moving cultivation conveyor of Figure 4;

Figure 8 is another embodiment of the sprout and baby vegetable cultivation plant according to the invention.

9 is an operating state of the moving cultivation conveyor of the operating state of the sprout and baby vegetable cultivation plant of the present invention.

Figure 10 is a state in which nutrients are supplied in the moving plate of the operating state of the sprout and baby vegetable cultivation plant of the present invention.

Explanation of symbols on the main parts of the drawings

1. Cultivation equipment 3. Support frame

5. Roof 7. Glass Panel

9. Windshield 10, 21, 31, 62. Drive motor

11, 32. Drive shaft 11a. Coupling

12. Gear Assembly 13. Pinion

14. Rack 15. Support Bracket

18. Side shading curtain 20. Shading curtain

22. Winding rod 23, 28. Guide rail

25. Slide member 27. Moving wall

29. Wall part 30. Shading screen

33. Screen transfer member 34. Fixed rail part

40. Moving cultivation conveyor 41. Moving plate

41a. Seating Guide Part 42. Planting Port

43. Nutrients supply hole 44. Frame

45. Rail 46, 56. Cylinder

47, 57. Rod 48. Lift panel

49. Guide rod 49a. Belt Bracket

50. Moving plate moving path 52. Nutrient container support frame

54. Nutrient bottle 55. Connecting member

60. Lifting device 61. Lifting support frame

63. Lift plate 70. Ventilation fan

75. Auxiliary shading screens S1, S2, S3. Cultivation space

D. Shading Area W. Solar Irradiation Area

The present invention relates to a cultivation facility that can grow sprouts and baby vegetables at the same time, and more particularly divided by the shading means so as to achieve a different cultivation environment inside the cultivation facility equipped with a roof of the openable glass panel At the top of the cultivation facility, which forms a cultivation space part, each moving plate having a cultivation port in each cultivation space part is directly irradiated with the solar light source through the glass panel of the roof from the bottom of the cultivation facility where the solar light source is weak. By installing a moving cultivation conveyor that can be grown to sprouts and baby vegetables according to the sequential movement, growth cultivation from seed to sprouts and baby vegetables is made in one cycle, and moving cultivation conveyor of one cycle structure as described above. Sprout or baby vegetables grown in the plant according to the purpose of shipment Each separated by an external shipping from, and, in particular, the sprout or the baby, such as vegetables in the cultivation environment, different wide (多種) at a sprout and Arabidopsis plants grown vegetables to be able to be simultaneously grown in a growing plant.

In general, in order to promote rapid growth of vegetables, regardless of the season, a greenhouse or a ceiling or a cultivation facility is made of glass greenhouses and the like, and vegetables are grown on the land therein. Likewise, in order to grow vegetables in a greenhouse or greenhouse, a smooth supply of solar, water, and nutrients necessary for growth is essential.

As a method for supplying sunlight, water supply, and nutrients, which are essential elements of the growth of the vegetables, shading membranes, ventilation windows, and water supply means for controlling the irradiation amount of solar light and ventilation, water supply, nutrients, etc. in the greenhouse or greenhouse. , Nutrient solution supply means and the like are installed.

Meanwhile, in the case of a conventional vinyl house or a greenhouse, the planting zone for cultivating vegetables is divided according to the installation area, and the seeds are planted in the partitioned cultivation zone until the vegetables are fully grown. Since there are no shading means (shading curtains or moving walls) to create different cultivation environments between greenhouse cultivation zones, it is very difficult to grow different kinds of vegetables on land in separate cultivation zones. There was a big problem, such as the cultivation of vegetables of a single cultivation, such as a cultivation facility, that is, a limited number of vegetables that can be grown in a greenhouse or greenhouse.

In addition, even if the vegetables grown in one plastic house or greenhouse as described above, there is no shading means (shading curtains or moving walls) to block or irradiate sunlight depending on the growing state of the vegetables. It is very difficult to grow cultivated vegetables according to the growth status, that is, sprouts or baby vegetables, and when sprouts are grown according to the purpose of shipment, sprouts and baby vegetables are grown simultaneously in one plastic house or greenhouse. There was also a problem such as not being able to.

In addition, in order to cultivate sprouts and baby vegetables as described above, it is necessary to separately produce a vinyl house or a greenhouse for sprout growing and baby vegetable growing, and the above-mentioned different kinds of vegetables are also grown separately. In addition, there is a problem that the economic loss of the user is caused by separately producing a plastic house or a greenhouse for growing sprouts and baby vegetables or a multi-vegetable vegetable growing, for example, to produce a plastic house or a greenhouse for a separate plant. there was.

In addition, in the conventional plastic house or greenhouse structure, nutrients are injected and supplied through a nutrient supply means consisting of a nutrient solution supply pipe and a nutrient solution injection nozzle in order to grow into seeds or baby vegetables from seeds planted in the cultivation area land. The nutrients sprayed through the spray nozzles are not supplied intensively to seeds, sprouts, and baby vegetables planted in the cultivation area, but are sprayed over the entire cultivation area. In addition to the problem of becoming larger, the supply of nutrients injected into the seeds, sprouts, baby vegetables, etc. is a one-time injection, making it impossible to reuse the injected nutrients, especially in the growth period of seeds, sprouts, baby vegetables, etc. Identify and supply the nutrients you need There was also a problem such as having to supply nutrients uniformly.

In order to solve the above problems, a closed hydroponic cultivation device (Patent Registration No. 0195969) registered on February 18, 1999 has been proposed. In the case of the closed hydroponic cultivation device, it is insulated from the outside and has an inner wall surface. After each tray is seeded in the plant storage room of the sealed space treated with this reflecting surface, the trays are connected by zigzag, and the chains are driven by the rotational force of the driving motor on which the sprockets are installed. Is zigzag-shaped and is configured to germinate and grow sown seeds.

However, the chain is connected in a zigzag form so that the chain is connected so long that the chain does not form a horizontal state due to tension due to the weight of the tray and the weight of the chain. While the chain drive by the drive motor is not made smoothly, there was a big problem such that the load is applied to the drive motor.

In addition, if the chain sags downward due to the weight of the tray and the weight of the chain as described above, the number of contacts of the chain caught by the sprocket of the drive motor decreases, and eventually the sprocket of the drive motor. There was also a problem such that the chain was separated from the tray and the conveying operation of the tray became impossible.

In addition, in order to transfer the tray in a zigzag form by the chain as described above, the size of the chain transmission device must be very large, and the structure thereof is also complicated, so assembling and maintenance thereof are very inconvenient. There was also a problem that the plant storage room with a built-in powertrain also had to increase in size.

The present invention has been made in order to solve the above-mentioned problems, and to form a cultivation space each partitioned by the shading means so as to achieve a different cultivation environment inside the cultivation facility equipped with a roof of the openable glass panel Each moving plate having a cultivation port in each of the cultivation spaces has sprouts according to the sequential movement from the bottom of the cultivation facility where the solar light source is weak to the top of the cultivation facility where the solar light source is directly irradiated through the glass panel of the roof. By installing and constructing a moving cultivation conveyor capable of cultivation to baby vegetables, sprouts grown and grown from seed to sprouts and baby vegetables to one cycle, as well as moving cultivation conveyors of one-cycle structure as described above According to the purpose of shipment, baby vegetables are divided into sprouts or baby vegetables and shipped outside In particular, the purpose is to enable the simultaneous cultivation of a variety of sprouts or baby vegetables with different cultivation environment in one cultivation facility.

In addition, in the case of sprout and baby vegetable cultivation plant of the present invention, the nutrients suitable for the growth stage from the bottom of the multi-stage frame, which is the wearing side of the moving plate in the state of seeds or germinated seeds, to the top of the frame that is grown and grown in baby vegetables By installing the nutrient supply means that can be continuously supplied, and prevents the waste of nutrients compared to the conventional method of spraying and supplying the nutrients necessary for seeds or germinated seeds or sprouts and baby vegetables through the nozzle, Another purpose is to be able to greatly reduce the economic losses of growing such sprouts and baby vegetables as they are reusable.

In addition, in the case of using the shading means installed to partition each cultivation space part of the sprout and baby vegetable cultivation facilities of the present invention, that is, a shading curtain or a moving wall, Since sprouts and baby vegetables can be grown together, it is necessary to have several independent cultivation facilities for growing many kinds of sprouts and baby vegetables as in the past, Another aim is to reduce the economic losses of having planting facilities.

Sprout and baby vegetable cultivation plant of the present invention, in the cultivation facility is configured to perform a greenhouse role to combine the glass panel forming a roof on both sides of the support frame to grow sprouts and baby vegetables;

In addition, the cultivation space portion is formed by the shading means so that different cultivation environments can be applied to the inside of the cultivation facility, and each moving plate having a cultivation port in each cultivation space portion has a weak solar light source. Moving cultivation conveyor is configured to be cultivated from seed to sprout and baby vegetable according to the sequential movement to the top of the cultivation facility irradiated with direct solar light source through the glass panel of the roof from the bottom of the facility.

At this time, the lower side of the roof made of the glass panel is further provided with a window opening and closing means for opening and closing the glass window by the motor drive so as to be connected to the glass window ventilation and natural atmosphere circulation inside the cultivation facility, The upper part of the cultivation space part is further provided with a light shielding screen for blocking the solar light source irradiated through the roof so as to control the germination state of different cultivation environment and seeds, each cultivation space part through the roof on the side of the moving cultivation conveyor It is characterized in that the side light curtain is further provided to block the solar light source irradiated to the inside of the moving cultivation conveyor side.

In addition, the shading means is a shading curtain for blocking the irradiation of the sunlight irradiated through the roof of the glass panel to the cultivation space of the different cultivation environment, or made of a sliding wall that can be installed and released smoothly by the sliding action, The moving wall has a guide rail installed between each cultivation space; A wall part which is installed to be transportable on the guide rail and partitions a cultivation space part by lengthening and contracting according to different cultivation environments; Characterized in that it is composed of a magnet installed on one end of the wall portion to be fixed to the wall portion in the length-extended state through the magnetic force.

And, the moving cultivation conveyor is a multi-stage frame formed with a moving plate body passages at both ends while the rail is formed on the upper side so as to be sequentially moved from the bottom to the top of the cultivation facility; Horizontal driving means installed on each end of the frame to sequentially move a moving plate body placed on a rail; Vertical driving means installed on each other side of the frame to vertically move the moving plate body horizontally moved to the frame side of the upper end; It is characterized by consisting of a nutrient solution supply means for supplying nutrients in accordance with the cultivation state of seeds or sprouts and baby vegetables in the cultivation port of the moving plate to be moved up and down on both sides of the frame to be sequentially moved.

In addition, one side of the multi-stage frame is characterized in that the lifting device for transporting to the lower end of the cultivation equipment to ship the cultivation is complete, such as sprout or baby vegetables, characterized in that it is further provided.

In addition, the nutrient solution supply means and the nutrient solution container support frame which is installed to be transported up and down on both sides of the lower end of the frame; Drive rollers installed at both ends of the nutrient solution container support frame to smoothly move the nutrient solution container support frame to each side of the frame; A nutrient solution passage respectively placed on the nutrient solution container support frame so as to correspond to each moving plate body placed on the frame of each stage; The nutrient container support frame is transported up and down on the frame of each stage where the moving plate body is placed, so that the nutrients in the nutrient container placed in the nutrient solution support frame can be supplied according to the cultivation state of the seed or sprout and the baby vegetable of the moving plate body. It is characterized by consisting of the frame conveying means.

And, in each nutrient container placed in the nutrient container support frame is characterized in that the concentration of nutrients supplied to be varied depending on the cultivation state of the seed or sprout and baby vegetables of the moving plate.

On the other hand, the window opening and closing means is a glass window provided to be opened and closed on both sides of the ridge of the roof for ventilation and natural atmosphere circulation in the cultivation facility; A driving motor installed at a lower end of the glass window and supplying rotational force to enable the opening and closing of the glass window installed at both sides of the ridge; A coupling connected between the drive motor and the drive shaft to transmit the rotational force of the drive motor to the drive shaft; It is characterized in that the gear assembly is connected to the glass window spaced apart from the coupling is configured to open and close the glass window of the roof by the rotational action between the rack and the pinion connected to the glass window through the rotational force of the drive shaft.

In addition, the light shielding screen is formed in a two-stage structure in the form of a curtain made of a horizontal transfer by a drive motor along the fixed rails installed on the top of each cultivation space in the cultivation facility, the upper side of the solar panel directly irradiated with sunlight The light blocking screen has a light blocking rate of 60%, and the lower light blocking screen installed at the lower end of the upper light blocking screen has a light blocking rate of 90%.

The moving plate body is formed in a trapezoidal structure in which one or more cultivation ports are spaced at equal intervals in the longitudinal direction of the plate body, and a cultivation port is formed at the bottom of the moving plate body, respectively, and a seed or A nutrient supply hole through which nutrients are supplied to the shoots and the baby vegetables is formed through, and both side surfaces of the moving plate body are seated on the rails on the upper side of the frame, and a seating guide part is formed to allow horizontal movement.

In addition, the horizontal drive means is made of a cylinder drive method for horizontally moving the moving plate body placed on the rail of the frame while the length of the rod in the cylinder by the compressed air supplied from the compressor is made of a chain drive according to the rotation of the motor The vertical driving means may be configured by a cylinder driving method or a lift panel driving method in which a rail is formed to vertically move the moving plate body horizontally moved to one side of the frame.

As another embodiment of the sprout and baby vegetable cultivation plant according to the present invention, in the center of the moving cultivation conveyor secondary screening screen to be divided into the light-shielding area germinated from the seed sprouts and the solar irradiation area cultivated with baby vegetables It is installed, but the secondary shading screen is characterized in that it is configured to shoot as a sprout, the top of the auxiliary shading screen as a baby vegetable.

Hereinafter, the sprout and baby vegetable cultivation plant of the present invention will be described in detail with reference to the drawings.

1 is a view showing the configuration and detail of the sprout and baby vegetable cultivation plant of the present invention, Figure 2 shows a perspective view of the shading curtain of the sprout and baby vegetable cultivation plant of the present invention, Figure 3 It shows the installation state and detail of the window opening and closing means of the sprout and baby vegetable cultivation facilities.

In addition, Figure 4 shows the configuration of the moving cultivation conveyor of the sprout and baby vegetable cultivation plant of the present invention, Figure 5 shows a cross-sectional perspective view of the moving plate body applied to the moving cultivation conveyor of Figure 4, Figure 6 It shows a detailed view and a side view showing the upper moving passage of the moving plate of the moving cultivation conveyor of Figure 7, Figure 7 shows another embodiment of the nutrient solution supply means of the moving cultivation conveyor of FIG.

The sprout and baby vegetable cultivation facility (1) of the present invention is a greenhouse-like structure in which the roof (5) of the glass panel (7) is coupled to the upper side of the support frame (3) to grow the sprout and baby vegetable (1). As shown in FIG. 1, the cultivation spaces S1, S2, and S3 are respectively partitioned by the shading means so that different cultivation environments may be applied to the cultivation facility 1. In each of the cultivation spaces S1, S2, and S3, each moving plate 41 having a cultivation port 42 has a glass panel of the roof 5 from the lower end of the cultivation facility 1 having a poor solar light source. 7) moving cultivation conveyor 40 is configured to be cultivated from seed to sprout and baby vegetables according to the sequential movement to the top of the cultivation facility (1) through which the solar light source is directly irradiated, in particular the glass panel ( 7) Ventilation inside the cultivation plant (1) on both sides of the bottom of the roof (5) Window opening and closing means for opening and closing the glass window 9 is installed by the motor 10 driving so that the air atmosphere circulation can be made, the top of each cultivation space (S1, S2, S3) of the different cultivation environment and seeds The overall configuration is made of a structure in which a light shielding screen 30 is installed to block a solar light source irradiated through the roof 5 so as to control the germination state.

Here, in the case of the shading means, the sunlight irradiated into the cultivation facility 1 through the roof 5 made of the glass panel 7 is irradiated to the cultivation spaces S1, S2, and S3 of different cultivation environments. In order to block the installation of the light shielding curtain 20 having the structure as shown in Figure 2 or between the cultivation space (S1, S2, S3) partitioned by each different cultivation environment or sliding action as shown in the detail of FIG. It is possible to install a smooth moving wall 27 through the installation and release of the wall through this, in the case of the light-shielding curtain 20 through the roof 5 of the glass panel 7 each cultivation space (S1, S2, To completely block the sunlight irradiated to the side of S3), a thick cloth that does not transmit light at all or a synthetic resin film made of tinting is rotated by the motor 21 to move up and down along the guide rail 23. Sliding action It is wound on the winding rod 22 connected to the copper motor 21, and the synthetic resin film made of a thick cloth or tinting is developed or wound by vertical movement of the winding rod 22 which is rotated by the driving of the motor 21. Will be.

In addition, when the synthetic resin film made of a thick cloth or tinting is developed or wound by the rotation of the winding rod 22 according to the driving of the motor 21, the winding rod 22 smoothly moves up and down along the guide rail 23. Slide member 26 is installed in the center and both sides while forming a "??" shaped chamber shape, one side between the guide rail 23 and the drive motor 21 is connected to the winding rod 22 so that the roller ( 25 is coupled, the guide rail 23 corresponding to the slide member 25 is formed in the form of a slide groove 24 is formed in the center and both sides.

In addition, in the case of the moving wall 27, heat or temperature does not affect neighboring growing spaces S1, S2, and S3 so as to achieve different growing environments of the growing spaces S1, S2, and S3. To prevent the, guide rails 28 are installed between each cultivation space (S1, S2, S3); A wall part 29 installed to be transportable on the guide rail 28 and partitioning the cultivation spaces S1, S2, and S3 by lengthwise expansion and contraction according to different cultivation environments; It is composed of a magnet (not shown) installed at one end of the wall portion 29 to fix the wall portion 29 in a state in which the length is extended through a magnetic force, in the case of the wall portion 29 is heat or temperature It consists of a heat insulation wall for blocking the transmission to the neighboring cultivation space (S1, S2, S3).

Then, between the cultivation space (S1, S2, S3) partitioned in the cultivation facility (1) according to the type grown from the cultivation space (S1, S2, S3), as shown in FIG. The moving wall 27 can also be mixed and used.

In addition, a solar light source irradiated into each of the growing spaces S1, S2, and S3 through the glass panel 7 of the roof 5 is installed in each of the growing spaces S1, S2, and S3. In order to block the inflow to the side of the conveyor 40, the side light shielding curtain 18 is installed on the side of the moving cultivation conveyor 40, in this case the light shielding curtain 18 described above It consists of the same structure as (20).

On the other hand, in the case of the window opening and closing means of the sprout and baby vegetable cultivation plant (1) of the present invention, as shown in Figure 3, on both sides of the ridge of the roof (5) for ventilation and natural atmospheric circulation in the cultivation plant (1) A glass window 9 installed to open and close; A drive motor 10 installed at a lower end of the glass window 9 to supply rotational force to enable the opening and closing action of the glass window 9 installed at both sides of the ridge; A coupling (11a) connected between the drive motor (10) and the drive shaft (11) so as to transmit the rotational force of the drive motor (10) to the drive shaft (11); The roof 5 is connected to the glass window 9 while being spaced apart from the coupling 11a and is rotated between the rack 14 and the pinion 13 connected to the glass window 9 through the rotational force of the driving shaft 11. It is composed of a gear assembly 12 for opening and closing the glass window (9) of.

In the case of the glass window 9 of the window opening and closing means configured as described above, a glass window support bar (not shown) made of aluminum for supporting and protecting the glass window 9 is installed at the edge thereof.

In addition, the coupling 11a is a connection element installed between the drive motor 10 and the drive shaft 11 so as to transmit the rotational force of the drive motor 10 to the drive shaft 11, preferably a chain Coupling is used.

And, in the case of the gear assembly 12 and the pinion (13) coupled with the drive shaft (11) rotates in both directions by the rotational force of the drive motor (10) transmitted through the coupling (11a); The rack 14 is connected to the pinion 13 in a state in which one end of the glass window 9 of the roof 5 is connected, and the rack 14 opens and closes the glass window 9 of the roof 5 by a rotational action according to the rotation of the pinion 13. )Wow; It consists of a support bracket (15) for supporting the coupled state between the rack 14 and the pinion (13) which are connected to each other, wherein the support bracket (15) is a rack (the rotational force transmitted from the drive shaft 11) It is possible to interpolate the pinion 13 to switch to the rotational motion of 14), and in the center to facilitate the rotational action of the rack 14 connected to each other according to the rotation of the interpolated pinion 13. An insertion groove (not shown) having a “U” shape is formed, and the pinion 13 is supported on the insertion groove of the support bracket 15 through drive shafts on both sides of the support bracket 15 on which the insertion groove is formed. The drive shaft coupling hole 16 is formed to be penetrated.

In addition, in the case of the rack 14, gear teeth protrude on the inner circumferential surface side to correspond to the rotation of the pinion 13 fixedly supported on the upper end side of the support bracket 15 by the drive shaft 11 so that the up and down rotation can be performed. It is formed in the shape of a circular arc, the pinion 13 is formed in the form of the gear teeth protrude on the outer peripheral surface side to be in contact with the rack 14 and the rotational force of the drive shaft 11 is the pinion 13 The pinion 13 and the drive shaft are coupled to each other by a key so that the pinion 13 can be transmitted to the side.

In addition, in the case of the light blocking screen 30 of the sprout and baby vegetable cultivation facility 1 of the present invention, as shown in FIG. 1, a screen transfer member spirally coupled to a drive shaft 32 that is rotated by driving a motor 31. The fixed rail part 34 in which the light shielding screen 30 connected to the screen transfer member 33 is installed on the top of each of the cultivation spaces S1, S2, and S3 while the 33 moves spirally according to the rotational force of the drive shaft 32. It is formed in a two-stage structure in the form of a curtain that is horizontally moved along the front surface of the cultivation spaces (S1, S2, S3) or folded and folded to one side, in particular, the roof of the glass panel (7) 5) the upper light blocking screen 30 to which sunlight is directly irradiated has a 60% light blocking rate, and the lower light blocking screen 30 installed at the lower end of the upper light blocking screen 30 has a light blocking rate of 90%. .

In addition, in the case of the moving cultivation conveyor 40 of the sprout and baby vegetable cultivation plant (1) of the present invention, the cultivation space (S1, S2, S3) inside the cultivation plant (1), that is, the shading curtain (shielding means) 20) or in the cultivation spaces (S1, S2, S3), each partitioned in different cultivation conditions by moving walls (27), so that the roof (5) from the lower end of the cultivation facility (1) having a weak solar light source. As the moving plate 41 is sequentially moved to the upper end of the cultivation facility (1) where the solar light source is directly irradiated through the glass panel (7) as a device to enable one-cycle cultivation from the seed to the desired sprout and baby vegetables 4 and 6, the frame 44 of the multi-stage type formed with a moving plate body moving passage 50 at both ends while the rail is formed on the upper side so as to sequentially move from the bottom to the top of the cultivation facility (1) and; Horizontal driving means installed on each end of the frame 44 to sequentially move the moving plate body 41 seated on the rail 45; Vertical driving means installed at each other side of the frame 44 to vertically move the moving plate body 41 horizontally moved toward the frame 44 at the upper end; The nutrient solution supply means for supplying nutrients in accordance with the cultivation state of seeds or sprouts and baby vegetables in the cultivation port 42 of the moving plate 41 to be moved in order to move up and down on both sides of the frame (44) Consists of.

And, one side of the multi-stage frame 44 is further provided with an elevator-type lifting device 60 for transferring to the lower end of the cultivation facility (1) to ship the cultivation is completed, such as sprout or baby vegetables, Detailed description thereof will be described in detail in the elevation device 60 described later.

In addition, in the case of the moving plate body 41 applied to the moving cultivation conveyor 40, as shown in FIG. 5, the overall shape is a structure in which one or more cultivation ports 42 are inserted at equal intervals in the longitudinal direction of the plate body. In addition, the cultivation port 42 is integrally formed on the plate body, and the cultivation port 42 is formed to protrude to the lower end of the moving plate body 41, and the lower end of the moving plate body 41 as described above. At the bottom of the cultivation port 42 protruding into a nutrient supply hole 43 through which nutrients are supplied to the seeds or sprouts and the baby vegetable side, penetrating is formed, the upper side of the frame 44 on both sides of the moving plate 41 A seating guide portion 41a is formed on the rail 45 to allow horizontal movement.

In addition, the horizontal drive means is installed on each side of the frame 44, the length of the rod 47 in the cylinder 46 is made by the compressed air supplied from a compressor (not shown) while the frame 44 A chain driving method for horizontally moving the moving plate body 41 settled on the rail 45 of the rail or a chain for moving the moving plate body 41 settled on the frame 44 by chain drive according to the motor rotation. The driving method may be applied, and in this case, the moving plate body 41 is horizontally moved through the cylinder driving method.

In addition, in the case of the vertical driving means is installed on the other side of each frame 44, the cylinder driving method for vertically moving the moving plate body 41 horizontally moved to one side of the frame 44 to the frame 44 of the upper end Or lift panel 48 driving method which moves up and down along the guide rods 49 installed at the rear of the panel from both sides of the frame 44 to the frame 44 at the top by a driving motor (not shown). In this case, it is preferable that the first step of raising and lowering is performed such that the moving plate 41 is vertically moved only to the frame 44 at the upper end thereof through the lift panel 48 driving method. The belt bracket 49a restricts the lift of the lift panel 48 at the center of the rear of the lift panel 48 so that the lift panel 48 can be lifted only one step toward the upper frame 44. In addition to being installed The top of the lift panel 48 has a rail (not shown), for smoothly conveying the horizontal vertical elevated moving valve element 41 through the cylinder drive system of the horizontal drive means is formed.

In addition, in the case of the nutrient solution supply means is installed so as to move up and down on both sides of the frame 44 to match the cultivation state of seeds or sprouts and baby vegetables in the cultivation port 42 of the moving plate 41 to be sequentially moved As a device for supplying nutrients, a driving cylinder is provided between the lower end of the rail 45 on which the moving plate body 41 is installed and the upper end of the nutrient container supporting frame 52 provided with the nutrient container 54, as shown in FIGS. 4 and 6. (56) spaced at equal intervals so that the nutrient solution container support frame 52 is raised or lowered by the lifting and lowering of the drive cylinder 56, or as shown in Figure 7 frame 44 Nutrient solution container support frame 52 which is installed on both sides of the lower end so as to be transported up and down; Drive rollers 53 installed at both ends of the nutrient solution container support frame 52 to smoothly carry out a shang-in action of the nutrient solution container support frame 52 toward the frame 44 at each end; A nutrient solution container 54 respectively disposed on the nutrient solution container support frame 52 so as to correspond to each moving plate body 41 disposed on the frame 44 of each stage; The nutrient container support frame 52 is transported up and down on the frame 44 of each stage where the moving plate body 41 is placed so that the nutrients in the nutrient solution container 54 placed on the nutrient container support frame 52 are moved to the moving plate body ( 41) may be composed of a support frame conveying means for supplying according to the cultivation state of seeds or sprouts and baby vegetables.

In addition, in each nutrient container 54 settled in the nutrient container support frame 52, the concentration of nutrients supplied is varied according to the cultivation state of seeds or sprouts and baby vegetables of the moving plate 41. In this case, the nutrient solution container 54 is formed in a separate state so as to correspond to each moving plate 41 placed on the frame 44 to be placed on the nutrient container support frame 52 or 2 It may be formed in a state corresponding to the three moving plate body 41 and placed on the nutrient container support frame 52 to be used.

In addition, in the case of the support frame conveying means is connected to both ends of the nutrient solution container support frame 52 which is installed on both sides of the lower end of the frame 44 of each stage is fixed to the moving plate body 41 side of the nutrient solution container support frame 52 A connection member 55 for simultaneous ascending; The lower end of the frame 44 of each stage to raise and lower the nutrient solution container support frame 52 connected by the connecting member 55 by the variable length of the rod 57 by the compressed air to the moving plate body 41 side It consists of the drive cylinders 56 provided in both sides.

In addition, in the case of the elevating device 60 is installed on one side of the frame 44 of the multi-stage type, the horizontal movement and the vertical movement of the moving plate body 41 is repeatedly shipped from the bottom to the top of the frame 44 for shipment. In other words, as a device for shipping the sprouts or baby vegetables to the outside in the state that the desired growth cultivation from the seeds or germinated seeds to the sprouts or baby vegetables is completed, the so-called multi-stage frame 44 A lifting support frame 61 installed at one side; A drive motor 62 installed on the elevating support frame 61; An elevating plate 63 installed in the elevating support frame 61 in a state of being connected to the driving motor 62 so as to elevate the sprout or the baby vegetable grown from the multi-stage frame 44; It is connected to the drive motor 62 and the elevating plate 63 is composed of a power transmission means for the shanghai conveying of the elevating plate 63 through the rotational force of the drive motor 62.

At this time, in the case of the power transmission means to move the elevating plate 63 by the chain up and down, or to move the elevating plate 63 coupled with the screw rod up and down according to the spiral movement according to the rotational force of the screw rod, where Preferably, a structure for vertically conveying the elevating plate 63 by chain drive is used.

In addition, in order to completely block the inflow of sunlight through the slope (four sides) of the section of the multi-stage frame 44 that grows and grows from the seed in the frame 44, the sprouts are grown from the bottom of the frame 44 A separate light shielding film (not shown) may be provided up to the center portion of the frame 44 or the entire edge of the frame 44.

In addition, the top and bottom of the light shielding screen 30 installed in the sprout and baby vegetable cultivation facility 1 of the present invention is made of light irradiation such as daytime sunlight irradiation in the evening or at night to grow from sprout to baby vegetable Along with indirect lighting (not shown) made of incandescent or fluorescent lamps so that cultivation can be carried out, a ventilation fan 70 for ventilating indoor air in the cultivation facility 1 is provided as shown in FIG. 1.

8 is another embodiment of the sprout and baby vegetable cultivation plant according to the present invention, according to another embodiment of the sprout and baby vegetable cultivation plant 1 according to the present invention, the sprout and baby vegetable cultivation plant of the present invention ( Shading area (D) formed in the same structure as 1), but sprouted from the seed in the center of the moving cultivation conveyor (40) installed in the cultivation space (S1, S2, S3) partitioned by the shading means, respectively By installing an auxiliary shading screen 75 so as to be divided into a solar irradiation area (W) cultivated as a baby vegetable and shipped to the baby vegetable at the bottom of the auxiliary shading screen (75), the top of the auxiliary shading screen (75) It is configured to be.

On the other hand, as described above, the seed or germinated seeds planted in the moving plate body 41 applied to the moving cultivation conveyor 40 of the sprout and baby vegetable cultivation facility (1) of the present invention and another embodiment of the frame 44 In accordance with the sequential movement of the moving plate (41) by the horizontal drive means and vertical drive means installed on the) grow cultivation to shoots and baby vegetables, wherein the growth cultivation into shoots and baby vegetables as described above Possible vegetables include leafy vegetables such as cabbage, cabbage, lettuce, spinach and leek and spices such as rosemary, mint, marjoram, fennel, basil and chervil, and root vegetables such as radish, turnip and carrot. In the case of the root vegetables can not be used as a baby vegetable can be grown only as a sprout.

Hereinafter, the operation process of the sprout and baby vegetable cultivation facility of the present invention will be described in detail with reference to the drawings.

Figure 9 shows the operating state of the moving cultivation conveyor in the operating state of the sprout and baby vegetable cultivation plant of the present invention, Figure 10 is a state in which nutrients are supplied to the moving plate during the operating state of the sprout and baby vegetable cultivation plant of the present invention It is shown.

In the operation process of the sprout and baby vegetable cultivation facility 1 according to the present invention, the opening and closing process of the glass window 9 of the roof 5 consisting of the glass panel 7 and the top of each cultivation space (S1, S2, S3) The operation process of the light shielding screen 30 installed at will be omitted, and only the operation process of the moving cultivation conveyor 40 installed in each of the cultivation spaces S1, S2, and S3 will be described.

As described above, the moving plate body 41, ie equal intervals, on the lowermost rail 45 of the frame 44 forming a multi-stage configuration among the moving cultivation conveyor 40 installed in each of the cultivation space (S1, S2, S3), respectively. Horizontal transfer action of the horizontal drive means installed on each end side of the frame 44 as shown in Figure 9 in a state in which the moving plate 41 planted seeds or germinated seeds are planted in the cultivation port 42 spaced apart According to the moving plate 41 to move horizontally sequentially according to the set time or number of days, at this time, each of the moving plate 41 planted seeds or germinated seeds through the above process of the frame 44 One end is moved horizontally to the moving plate moving passage (50).

As described above, when the horizontal movement of the moving plate body 41 is completed by the moving plate body moving passage 50, which is one end of the frame 44, the moving plate body 41 is vertically transferred to the upper frame 44 side. According to the vertical transfer action of the vertical driving means installed on the other side of the frame 44, the moving plate body 41 horizontally moved to the moving plate body moving passage 50 is vertically moved toward the frame 44 of the upper end. As described above, the moving plate body 41 vertically moved toward the frame 44 at the upper end by the vertical driving means is a horizontal driving means installed on the moving plate body moving passage 50, that is, according to the horizontal transfer action of the above-described horizontal driving means. While moving in a direction opposite to the moving direction of the moving plate body 41 at the lowermost side of the frame 44, the plate is moved horizontally to the moving plate body moving passage 50 at one end of the frame 44 for vertical movement to the next upper frame 44 side. do.

In addition, the horizontal movement and vertical movement of the moving plate body 41 is repeatedly grown from the bottom end to the top end of the frame 44 and grows from seeds or germinated seeds in the moving plate body 41 to sprouts and baby vegetables. Will be achieved.

In particular, the seed or germination according to the transfer of the moving plate 41 in the process of the horizontal and vertical movement of the moving plate 41 by the horizontal drive means and the vertical drive means on the frame 44 as described above in sequence When the moving plate 41 is transported from the shading area D by the horizontal driving means and the vertical driving means by dividing the frame 44 into the area irradiating or blocking the sunlight according to the growth state of the seed. Sunlight through the glass panel 7 of the roof 5 is deployed to the seed or germinated seed of the moving plate 41 by deploying the light shielding screen 30 installed on the top of the cultivation space (S1, S2, S3). When the seedlings or germinated seeds are grown and grown in the form of sprouts, the moving plate 41 is transferred to the solar irradiation zone (W) through the shading zone (D). S1, S2, S3) ex on top The folded to assemble the light-shielding screen 30 by one to ensure that sunlight through the glass panel (7) of the roof (5) is directly irradiated to the bud part of the moving valve element 41, so that growth cultivated into a baby greens state.

In addition, as described above, the horizontal movement and the vertical movement of the moving plate 41 are repeatedly made from the bottom to the top of the frame 44 in a state for shipment, that is, the purpose of the seed or germinated seed to sprout or baby vegetable. In the state in which the growth cultivation is completed, the shoots or baby vegetables are shipped to the outside through the elevator-type lifting device 60 installed on one side of the frame 44, where the outgoing outwards to the shoots are multi-stage frame. (44) is made in the middle of the frame 44, the light shielding area (D), the outgoing outgoing to the baby vegetable at the top of the frame 44, which is the solar irradiation area (W) of the multi-stage frame 44 It is made to be shipped to the lower side of the frame 44 of the multi-stage via the lifting device (60).

On the other hand, in the process of the horizontal movement and the vertical movement of the moving plate 41 by the horizontal drive means and the vertical drive means on the frame 44 in sequence the seed or germinated according to the transfer of the moving plate body 41 According to the growth state of the seed to be supplied according to the nutrients described in detail the nutrient supply process as follows.

As described above, in the process of horizontally moving and vertically moving the moving plate 41 by the horizontal driving means and the vertical driving means on the frame 44, the horizontal of the moving plate body 41 is moved to the next position by the horizontal driving means. When the movement is made, the nutrient solution container support frame 52 by the support frame conveying means of the nutrient solution supply means installed to enable the vertical movement on both sides of the frame 44 as shown in Figure 10 the moving plate body 41 The lower end of the moving plate body 41 is positioned in the nutrient solution container 54 settled in the nutrient solution container support frame 52 while rising to the lower end of the nutrient container accommodated in the nutrient solution container 54. In addition to being immersed in, the nutrient contained in the nutrient container 54 is through the cultivation port 42 of the lower portion of the moving plate 41, that is, through the nutrient supply hole 43 formed through the bottom of the cultivation port 42 Seed or foot When the moving plate 41 is immersed during the set time in the nutrient solution container 54, the moving plate 41 by the horizontal driving means may be horizontally moved to the next position. The nutrient container support frame 52 by the support frame conveying means is lowered downward.

And, the nutrient supply of the above process is from the bottom of the multi-stage frame 44, which is the wearing side of the moving plate 41 in the seed or germinated seed state to the top of the frame 44 grown and grown in baby vegetables By continuously supplying nutrients suitable for the growth stage, it is possible to reuse while preventing the waste of nutrients compared to the conventional method of spraying and supplying the nutrients necessary for seeds or germinated seeds, sprouts and baby vegetables through nozzles. Fresh sprouts and baby vegetables can be grown in the growing environment.

In addition, in the case of using the shading means, that is, the shading curtain 20 or the moving wall 27 installed so as to partition each of the cultivation space (S1, S2, S3) of the sprout and baby vegetable cultivation facility 1 of the present invention. Within one cultivation facility (1), it is possible to cultivate many kinds of sprouts or baby vegetables according to different cultivation environments, so that several independent cultivation facilities for growing many kinds of sprouts or baby vegetables as in the prior art It is not necessary to provide (1), and it is possible to obtain side effects, such as preventing the economic loss of equipping the various cultivation facilities (1), in particular.

As described above, the above-described embodiments are described with reference to the most preferred examples of the present invention, but are not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention. .

Sprout and baby vegetable cultivation equipment of the present invention, each of the cultivation space is formed in the cultivation facility equipped with a roof of the openable glass panel to form a different cultivation environment by the shading means Each moving plate with a cultivation port is cultivated from the bottom of the cultivation facility with the poor solar light source to the shoots and the baby vegetable as the sequential movement from the bottom of the cultivation facility where the solar light source is directly irradiated through the glass panel of the roof. By installing a movable cultivation conveyor that can be used, the growth and cultivation from seed to sprouts and baby vegetables is done in one cycle, and the shoots and baby vegetables grown in the one-cycle moving cultivation conveyor as described above are shipped. Depending on the sprouts or baby vegetables, each can be shipped outside, especially cultivation Wonder has an excellent effect such that each can be simultaneously grown sprouts and baby greens such other variety (多種) in a cultivated plant.

In addition, in the case of sprout and baby vegetable cultivation plant of the present invention, the nutrients suitable for the growth stage from the bottom of the multi-stage frame, which is the wearing side of the moving plate in the state of seeds or germinated seeds, to the top of the frame that is grown and grown in baby vegetables By installing the nutrient supply means that can be continuously supplied, and prevents the waste of nutrients compared to the conventional method of spraying and supplying the nutrients necessary for seeds or germinated seeds or sprouts and baby vegetables through the nozzle, As the reuse is possible, there is also an effect such as to greatly reduce the economic loss of growing the shoots and baby vegetables.

In addition, in the case of using the shading means installed to partition each cultivation space part of the sprout and baby vegetable cultivation facilities of the present invention, that is, a shading curtain or a moving wall, Since sprouts and baby vegetables can be grown together, it is necessary to have several independent cultivation facilities for growing many kinds of sprouts and baby vegetables as in the past, There is also the effect of reducing the economic loss of planting equipment.

Claims (12)

In the cultivation facility is configured to perform a greenhouse role to combine the glass panels forming a roof on the upper side of both support frame to grow sprouts and baby vegetables; In addition, the cultivation space portion is formed by the shading means so that different cultivation environments can be applied to the inside of the cultivation facility, and each moving plate having a cultivation port in each cultivation space portion has a weak solar light source. Sprouts and babies, characterized by a moving cultivation conveyor configured to cultivate from seeds to sprouts and baby vegetables as sequential movement from the bottom of the facility to the top of the cultivation facility where the solar light source is directly irradiated through the glass panel of the roof. Vegetable cultivation facility. According to claim 1, The glass panel opening and closing means is further provided on both sides of the bottom of the roof made of the glass panel to open and close the glass window by a motor drive so that the ventilation and natural atmosphere circulation inside the cultivation plant is connected to the glass window, The top of each cultivation space portion is further provided with a light shielding screen for blocking the solar light source irradiated through the roof to control the different cultivation environment and seed germination state, each side of the moving cultivation conveyor through the roof Sprout and baby vegetable cultivation facility further comprises a side shielding curtain for preventing the solar light source irradiated into the space portion from entering the side of the moving cultivation conveyor. According to claim 1, The shading means is a shading curtain for blocking the irradiation of the sunlight irradiated through the roof of the glass panel to the cultivation space of the different cultivation environment, the movable wall smoothly installed and released by the sliding action It consists of, the moving wall and the guide rail is installed between each cultivation space portion; A wall part which is installed to be transportable on the guide rail and partitions a cultivation space part by lengthening and contracting according to different cultivation environments; Sprout and baby vegetable cultivation equipment, characterized in that consisting of a magnet installed on one end of the wall portion to fix the wall portion in the state is elongated through the magnetic force. The multi-stage frame of claim 1, wherein the moving cultivation conveyor comprises: a frame having a moving plate body moving path formed at both ends thereof with a rail formed at an upper side thereof so as to sequentially move from a lower end of the cultivation facility to an upper end thereof; Horizontal driving means installed on each end of the frame to sequentially move a moving plate body placed on a rail; Vertical driving means installed on each other side of the frame to vertically move the moving plate body horizontally moved to the frame side of the upper end; Sprout and baby vegetables, characterized in that consisting of nutrient solution supply means for supplying nutrients according to the cultivation state of seeds or sprouts and baby vegetables in the cultivation port of the moving plate is installed so as to move up and down on both sides of the frame Cultivation facility. According to claim 4, One side of the frame of the multi-stage sprout and baby vegetable cultivation equipment further comprises a lifting device for transporting to the bottom of the cultivation equipment for shipping the finished cultivation of the sprout or baby vegetables. The nutrient solution supply means according to claim 4, wherein the nutrient solution supply means includes: a nutrient solution container support frame installed on both sides of the lower end of the frame so as to be vertically transported; Drive rollers installed at both ends of the nutrient solution container support frame to smoothly move the nutrient solution container support frame to each side of the frame; A nutrient solution passage respectively placed on the nutrient solution container support frame so as to correspond to each moving plate body placed on the frame of each stage; The nutrient container support frame is transported up and down on the frame of each stage where the moving plate body is placed, so that the nutrients in the nutrient container placed in the nutrient solution support frame can be supplied according to the cultivation state of the seed or sprout and the baby vegetable of the moving plate body. Sprout and baby vegetable cultivation plant, characterized in that consisting of a frame conveying means. According to claim 6, Each nutrient container placed in the nutrient container support frame sprouts and babies, characterized in that the concentration of nutrients supplied according to the growing state of the seedlings and sprouts and baby vegetables of the moving plate differently accommodated Vegetable cultivation facility. According to claim 2, The window opening and closing means is a glass window provided to be opened and closed on both sides of the ridge of the roof for ventilation and natural atmosphere circulation in the cultivation facility; A driving motor installed at a lower end of the glass window and supplying rotational force to enable the opening and closing of the glass window installed at both sides of the ridge; A coupling connected between the drive motor and the drive shaft to transmit the rotational force of the drive motor to the drive shaft; Sprout and baby vegetable cultivation equipment, characterized in that consisting of a gear assembly for opening and closing the glass window of the roof by the rotational action between the rack and the pinion connected to the glass window through the rotational force of the drive shaft is installed spaced apart from the coupling. The light shielding screen of claim 2, wherein the light blocking screen is formed in a two-stage structure in the form of a curtain that is horizontally moved by a driving motor along a fixed rail installed at an upper end of each cultivation space in a cultivation facility, and sunlight is emitted from the roof of the glass panel. The upper shading screen directly irradiated has a 60% shading rate, and the lower shading screen installed at the bottom of the upper shading screen has a shading rate of 90%, sprout and baby vegetable cultivation facility. According to claim 4, The moving plate body is formed in a trapezoidal structure in which at least one cultivation port is spaced at equal intervals in the longitudinal direction of the plate body, the cultivation port is formed at the lower end of the moving plate body, respectively, the cultivation port At the bottom, a nutrient supply hole for feeding nutrients to seeds or sprouts and baby vegetables is formed through, and both side surfaces of the moving plate body are seated on rails on the upper side of the frame, and a seating guide part is formed to allow horizontal movement. Sprouts and baby vegetable growing plants. The cylinder according to claim 4, wherein the horizontal driving means horizontally moves the moving plate body placed on the rail of the frame while the length of the rod in the cylinder is changed by the compressed air supplied from the compressor. It consists of a drive, the vertical drive means sprout and baby vegetable cultivation equipment, characterized in that consisting of a cylinder drive method for moving the moving plate horizontally moved to one side of the frame vertically to the frame side of the top or a lift panel drive method formed with a rail . According to claim 1, wherein the secondary cultivation conveyor is provided with an auxiliary shading screen to be divided into a light-shielding area that is germinated from the seed sprouts and a solar irradiation area cultivated with baby vegetables, a sprout at the bottom of the auxiliary shading screen As, the secondary shading screen top sprout and baby vegetable cultivation plant, characterized in that configured to be shipped as a baby vegetable.

Images