KR102090452B1 - Automatic Moving System of Bed for Unmanned Water Vegitables Culturing - Google Patents

Abstract

The automatic transfer system for unmanned hydroponic cultivation according to the present invention includes a first left and right transfer unit for transporting empty harvested harvested hydroponic vegetables from the harvesting point to the left as a vegetable planting point, and a gutter transferred by the first left and right transfering parts of the gutter. Gutter cleaning unit for cleaning, and a second left and right transfer unit for transferring the gutter passing through the gutter cleaning unit to the vegetable planting point, the first before and after transfer means for transferring the gutter located at the vegetable planting point rearward, and the rear The third left and right transfer parts for transferring the gutter located at the left rear to the right, and the fourth left and right transfer parts for receiving the gutter transferred to the third left and right transfer parts to the rear right and the gutter located at the rear right in front. It is characterized in that it comprises a second before and after transfer means for transferring to the harvest point.

Description

{Automatic Moving System of Bed for Unmanned Water Vegitables Culturing}

The present invention relates to an automatic movement system of a gutter for hydroponic cultivation of plants such as lettuce and cabbage in a greenhouse that can control the indoor temperature regardless of the outside temperature. In general, plants are naturally grown in external soil, but due to soil pollution and labor cost increase, industrial plants are cultivated hydroponically indoors such as greenhouses and buildings, and the present invention is directed to the industrialization of such hydroponic cultivation. It relates to an automatic transfer system of a hydroponic gutter that can contribute.

The prior art related to the present invention is disclosed in Korean Patent Registration No. 10-1600235 (announced on February 26, 2016). 1 is a configuration diagram of the conventional agricultural gutter. In Figure 1, the conventional agricultural gutter is installed inside the plastic house, and an agricultural gutter for supporting a crop cultivation container, wherein the agricultural gutter is a pedestal 110 installed horizontally on the ground; A cylindrical post 120 installed vertically on the top of the pedestal 110; A support frame 130 coupled to the upper surface of the post 120; It is coupled to the upper surface of the support frame 130, it is characterized in that it consists of; In addition, the gutter gutter 140 has a central surface on which a cultivation container is seated on an upper surface, a water groove 141 integrally formed on both sides of the central surface, and an edge portion formed to be bent on an outer circumferential surface of the water groove 141 It is characterized by consisting of (142).

       The conventional agricultural gutter configured as described above has no problem when used as a single gutter, but when a plurality of gutters are installed in a small area, such as hydroponic cultivation, when growing crops, a constant interval between the gutter and the gutter is considered in consideration of crop growth. Since it must be maintained, there is a problem that the productivity of hydroponic cultivation decreases. In addition, the conventional agricultural gutter constructed as described above has a structure fixed to the ground, so space utilization is limited and it is difficult to increase or decrease the installation of the gutter. Therefore, the automatic transfer system for unmanned hydroponic vegetable cultivation according to the present invention for solving the problems of the prior art is to efficiently utilize hydroponic cultivation by gradually opening the gap between the gutters as plants grow in the greenhouse. . In addition, another object of the present invention is to facilitate assembly and installation of the gutter to facilitate additional assembly and installation of the gutter according to the area of the hydroponic plantation. In addition, another object of the present invention is to cultivate hydroponically planted gutters as the vegetable grows, and to repeat the harvesting and replanting of the grown vegetables in a narrow space when the gutter arrives at a certain point. It is intended to provide a mold cultivation system.

The automatic transfer system for unmanned hydroponic cultivation of the present invention having the above object includes a first left and right transfer part of a gutter for transporting the harvested empty gutter to the left as a vegetable planting point, and the first and right sides of the gutter. A gutter cleaning part for cleaning the gutter conveyed by the conveying part, a second left and right conveying part for conveying the gutter passing through the gutter cleaning part to a vegetable planting point, and a first gutter for conveying the gutter located at the vegetable planting point to the rear. The front and rear conveying means, the third left and right transfer parts for transferring the gutter located at the rear left rear to the right, and the fourth left and right transfer parts for receiving the gutter transferred to the third left and right transfer parts and transferring it to the rear right. It is characterized in that it consists of a second front and rear transfer means for transferring the gutter located at the front to the harvest point.

The automatic transfer system for unmanned hydroponic cultivation of the present invention configured as described above has an effect of increasing productivity by making full use of the hydroponic cultivation room. In addition, another effect of the present invention can be used to adjust the spacing of the gutter according to the size when growing the plant planted in the gutter to facilitate growth, and also to adjust the spacing of the gutter depending on the type of hydroponic cultivation. It has the effect. In addition, the present invention has the effect of adjusting the distance between the gutter and the gutter by simultaneously reversing the entire gutter or by setting a constant gutter. In addition, another effect of the present invention is that the gutter rotates once in a circle in a narrow space, so that the planting to harvest can be achieved.

1 is a conventional agricultural gutter configuration,
Figure 2 is an overall perspective view of the automatic transfer system for unmanned hydroponic cultivation of the present invention,
Figure 3 is a cross-sectional configuration of the rack gear portion and the doug portion when moving the gutter applied to the present invention,
Figure 4 is a cross-sectional configuration of the rack gear portion and the doug portion when retracting the gutter applied to the present invention,
Figure 5 is a side configuration diagram of the automatic transfer system for unmanned hydroponic cultivation of the present invention,
6 is a configuration diagram of a gutter perspective positioned above the gear box portion of the present invention.

The automatic transfer system for unmanned hydroponic vegetable cultivation of the present invention having the above-described object will be described with reference to FIGS. 2 to 9 as follows.

Figure 2 is an overall plan view of the automatic transfer system for unmanned hydroponic cultivation of the present invention. The automatic transfer system for unmanned hydroponic cultivation of the present invention in FIG. 2 is a first left and right transfer unit 10 for harvesting hydroponic vegetables grown at a harvesting point and transferring the gutter to the left as a vegetable planting point, and the first gutter. A gutter cleaning unit 20 for cleaning the gutter conveyed by the left and right conveying parts, a second left and right conveying part 30 for transferring the gutter passing through the gutter cleaning part to the vegetable planting point, and a plurality of gutters located at the vegetable planting point Gutter first front and rear conveying means 40 for conveying the gutter portion made of, and the third left and right transfer parts 50 for transferring the gutter located at the left rear to the right, and the third left and right transfer parts of the gutter It is characterized in that it comprises a gutter fourth left and right transfer unit 60 for receiving the gutter and transferring it to the rear right, and a second front and rear transfer means 70 for transferring the gutter located at the rear right to the harvest point in front. .

Figure 3 is a side view of a gutter automatic transfer system for growing unmanned hydroponic vegetables of the present invention. The automatic transfer system for unmanned hydroponic vegetable cultivation according to the present invention in FIG. 2 is a side view viewed from the front, and a first left and right transfer unit 10 for moving the gutter from which the hydroponic cultivated vegetables are removed from the vegetable harvest point to the vegetable planting point, A gutter cleaning unit 20 for cleaning the gutter conveyed by the gutter first left and right transfer units, a second left and right transfer unit 30 for transferring the gutter cleaned in the gutter cleaning unit to the vegetable planting point, and vegetables After planting, the first front and rear conveying means 40 for conveying the gutter portion made of a plurality of gutters to the rear, and the third left and right transfer parts 50 for transferring the gutter to the right after moving the gutter portion to the rear, , Gutter fourth left and right transfer section 60 for transferring the gutter to the rear right along with the third left and right transfer section, again harvesting the gutter section transferred to the rear right It is characterized in that it comprises a second forward and backward conveying means (70) for conveying to the point forward. In the above, the gutter first left and right transfer section 10, the second left and right transfer section 30, the left and right third transfer section 50 and the fourth left and right transfer section 60 of the gutter have the same structure, and the first left and right transfer section of the gutter ( 10) and the gutter second left and right transfer unit 30 is installed in a pair in the front, the gutter third left and right transfer unit 50 and the gutter fourth left and right transfer unit 60 are installed in a pair in the rear to set the gutter 720 It acts to transfer the gutter from right to left in the front and from left to right in the rear. In addition, the vegetable is planted at the vegetable planting point, the first front-rear transfer means 40 for transferring the gutter portion to the rear as the vegetable grows, a lower support (not shown) for positioning the gutter portion 700 at the top ) Is installed at regular intervals, each of the motor parts 42 that transmits power to a plurality of rack gear parts, and the drive shaft 44 that transmits power of each motor part to a rotating gear, and rotates according to the rotation of the drive shaft. It is characterized in that it consists of a rotating gear 46 composed of two or more at regular intervals, and each rack gear portion 48 moving in a straight line according to the rotation of each rotating gear. In addition, the upper portion of each of the rack gear portion 48 may be a gutter portion 700 consisting of a plurality of gutters 720 transferred to the forward and backward directions according to the forward and backward direction of the rack gear portion. In addition, the gutter first left and right transfer unit 10 is for harvesting hydroponic vegetables planted in each gutter of the gutter unit 700 and moving the removed gutter 720 to a location for planting vegetables. The front first motor part 12 configured on the side and the first rotation shaft 14 connected to the front first motor part, and the first chain 16 connected to the first rotation axis and the first chain The first-first roller 11 constituted by the lower supporter and the chain connected to the first-first roller by being rotated by being rotated by a certain distance horizontally from the first-first roller and constituted by the first-first roller. Two rollers (13) and the first and second rollers (12), which are chained to the first and second rollers, are composed of the first and third rollers (15) installed on a support spaced horizontally from the first and second rollers (12). ) Is rotated, the 1-1 roller 11, the 1-2 roller 13, and the 1-3 roller 15 are rotated, and the gutter cleaning unit 2 0) is installed on the left side of the first left and right transfer parts of the gutter 10. When the gutter part is transported to the left and passes, the air is blown through the air nozzle 22 to clean the gutter, and the second left and right transfer parts of the gutter ( 30) is configured to transfer the gutter that has passed through the gutter cleaning unit to a position for planting vegetables. The front second motor 32 and the second rotation shaft 34 connected to the front second motor unit and the second The second chain 36 connected to the rotating shaft and the second chain connected to the 2-1 roller 31 and the 2-1 roller constituted in the lower support of the gutter by being coupled to the second chain to rotate. -1 It is connected to the 2-2 roller and the 2-2 roller, which are horizontally spaced apart from the roller 33 by a certain distance, and are installed on the support to be horizontally separated from the 2-2 roller by a chain. It is composed of 2-3 rollers, and when the front second motor 32 is rotated, The 2-1 roller 31, the 2-2 roller 33, and the 2-3 roller 35 are rotated, and when a plurality of rollers rotate as described above, the gutter 720 positioned on the upper side of the roller is one side It can be transferred to the other side. In addition, each of the rack gear portion 48 is configured to have a respective doug portion 80 for pushing and moving the corresponding gutter portion 700 from both sides, and the doug portion 80 pushes the gutter forward or the gutter It is used as a means for adjusting the spacing of and gutter.

Figure 4 is a side configuration diagram of the first before and after transfer means applied to the present invention. In FIG. 4, the first front-rear transfer means 40 applied to the present invention has the same structure as the second front-rear transfer means, and the second front-rear transfer means 70 includes a front-rear motor unit 72 that provides power, and front-rear. A drive shaft 74 for transmitting the rotational force of the motor unit, a rotating gear 76 configured to rotate at regular intervals on the drive shaft, a rack gear unit 78 that is linearly engaged with the rotating gear, and a rack gear unit installed therein It is composed of a doug portion 80 for transferring. In addition, the drive shaft 74 interlocked with the front-rear motor unit 72 is installed at the bottom of the gutter unit in a direction perpendicular to the gutter unit 700, and rotated at regular intervals on the drive shaft 74 installed in a direction perpendicular to the gutter unit When the gear 76 is engaged and rotates in the same manner as the drive shaft, when the rotation gear 76 rotates, the rack gear portion 78 in which the lower teeth of the rack gear portion 78 mesh with the rotating gear is moved in a straight line. .

5 is a detailed configuration diagram of a doug portion applied to the present invention. In FIG. 5, (a) is a configuration in which the pin 84 is erected and pushes the gutter 720 forward to move, and (b) when the rack gear part is moved rearward, the pin 84 is laid by the gutter, so the rack gear Doug portion 80 is applied to the present invention as a configuration diagram showing that the addition can be moved to the rear is mounted on the pin support rod 82 and the pin support rod is inserted into the teeth formed on the gear box 88 of the rack gear portion Consisting of pins 84 that can be laid or erected, the gutter 720 is moved forward from both sides by pins 84 that are mounted on the teeth 86 formed in the rack gears according to the forward and backward movement of the rack gears 48. You can push. Both sides of the doug portion 80 configured as described above is between the gutter 720 and the gutter 720 according to the position change of the pin support bar 82 located on the tooth 86 formed on the upper gear box of the rack gear portion 48 The spacing of can be adjusted, and when the size of the vegetable is small, the gap between the teeth and the teeth to which the pin is inserted is made smaller to reduce the gap between the gutter and the gutter, and when the plant grows, the pin 84 is large. It is possible to increase the distance between the gutter and the gutter by increasing the space between the inserted tooth 86 and the tooth 86. Therefore, the present invention capable of adjusting the spacing of the gutter as described above is of the doug portion 80 located in the tooth 86 formed in the gear box 88 of the rack gear portion (48, 78) according to the vegetable grows during hydroponic cultivation When the gap between the teeth to which the pin support rod 82 is inserted is largely changed, the motor of the front and rear motor portions 42 is driven to move the rack gear portion 48 back and forth to adjust the mutual spacing of the gutters 720 to be spaced apart. It is. In addition, the forward movement of the gutter is the pin 84 is erected and the erected pin 84 is caught on one side of the gutter, so when the rack gear portion 48 is advanced, the gutter 720 is caught on the pin, so that it moves forward. When the rack gear portion 48 is reversed by reversing the front and rear motor portions 42, the rack gear portion 48 can be reversed because the pin 84 is reversed through the lower portion while lying down. will be. Therefore, the retracted rack gear portion 48 can automatically move the pins and push the gutter back in all directions.

6 is a perspective view of a rack gear part applied to the present invention. In FIG. 6, the rack gear portion applied to the present invention is formed with teeth on the lower surface of the gear box 88 so as to engage and rotate with the rotating gear 46 that is fastened to the drive shaft 44 of the front-rear motor portion and rotates. A tooth is also formed on the upper portion of the gear, so that a doug portion can be seated on the upper tooth 86, and the gap between the teeth 86 and the teeth 86 seated by the doug portion is increased by increasing the number of teeth as the vegetable grows. The gap between gutters can be largely managed.

7 is a state diagram showing a state in which the gutter portion 700 is transferred to the harvesting point in the automatic transfer system for unmanned hydroponic vegetable cultivation according to the present invention. When the rack gear portion 78 is operated by the second front-rear transfer means 70 in FIG. 7, the gutter portion 700 is transferred from the rear right to the harvest point, and the vegetables planted in the transferred gutter are all grown. Therefore, it is possible to harvest. In FIG. 7, the first left and right transfer parts 10 of the gutter are mounted on the support 90, and the first front and rear conveying means and the second front and rear conveying means interlocking with the gutter part, the rack gear part, and the rack gear part are horizontally supported. It is shown as an example that the structure is mounted to the frame 95 composed of a vertical support.

10: Gutter first left and right transfer unit 10, 20: gutter cleaning unit,
30: Gutter second left and right transfer unit 30, 40: Gutter first before and after transfer means,
50: Gutter third left and right transfer unit 50, 60: Gutter fourth left and right transfer unit,
70: Gutter second before and after transfer means

Claims (6)

In the automatic transfer system for unmanned hydroponic cultivation for growing vegetables in a four-season greenhouse,
The automatic transfer system for unmanned hydroponic cultivation,
After harvesting the hydroponic vegetables grown at the harvesting point, the front first motor part 12 configured on the side of the vegetable harvesting part and the front first motor part connected to the left side, which is a vegetable planting point, A first rotating shaft 14, a first chain 16 connected to the first rotating shaft, and a first-to-one roller 11 configured in a gutter lower support by being coupled to and rotating with the first chain, and It is connected to the 1-1 roller by a chain, and the 1-2 roller 13, which is horizontally spaced a certain distance from the 1-1 roller, is constituted on the support, and the 1-2 roller is connected by a chain to the first. It consists of 1-3 rollers (15) installed on a support spaced at a certain distance horizontally from -2 rollers, and when the front first motor part (12) is rotated, the 1-1 roller (11), the 1-2 roller (13) and the first and second rollers (10) having a structure capable of transferring the upper gutter (720) by rotating the first and third rollers (15);
A gutter cleaning unit 20 which cleans the gutter by spraying air with an air nozzle 22 when the gutter part is transferred to the left and passes through the gutter for cleaning the gutter conveyed by the first left and right transfer parts;
A second rotating shaft 34 connected to the front second motor unit 32 and the second second motor unit and a second connecting shaft to the second rotating shaft by transferring the gutter passing through the gutter cleaning unit to the vegetable planting point It is coupled to the chain 36 and the second chain to rotate, and the 2-1 roller 31 and the 2-1 roller 33 are connected to the 2-1 roller by a chain. The 2-2 rollers, which are horizontally spaced at a certain distance and are connected to the 2-2 rollers and the 2-2 rollers that are configured on the support, are installed on the support to be horizontally spaced apart from the 2-2 rollers (35) It is composed of) when the front second motor unit 32 is rotated, the 2-1 roller 31, the 2-2 roller 33, and the 2-3 roller 35 are rotated, as described above. A gutter second left and right transfer unit 30 having a structure in which the gutter 720 positioned at the upper portion of the roller can be transferred from one side to the other when the rollers of the roller rotate;
Each motor that transmits power to a plurality of rack gear parts installed at regular intervals on a lower support for positioning the gutter part 700 on the upper side to transfer the gutter part made of a plurality of gutters located at the vegetable planting point to the rear. The drive shaft 44 for transmitting the power of each of the motor parts 42 and the respective motor parts to the rotating gear, and the rotating gear 46 composed of two or more at regular intervals by rotating according to the rotation of the driving shaft and the rotation of each rotating gear Gutter first front and rear conveying means 40 consisting of each rack gear portion 48 that moves in a straight line along;
A gutter third left and right transfer unit 50 for transferring the gutter located at the left rear to the right;
A gutter fourth left and right transfer unit 60 for receiving the gutter transferred to the third left and right transfer units and transferring the gutter to the rear right;
And a second front and rear conveying means 70 having the same structure as the first and front conveying means of the gutter, for conveying the gutter portion located on the rear right to the harvest point in the front,
Each of the rack gear portions of the first before and after transfer means and the second transfer means of the gutter is configured to have a respective doug portion 80 for pushing and moving the corresponding gutter portion 700 from both sides. Automatic gutter transfer system for unmanned hydroponic cultivation, characterized in that it is used as a means for pushing the gutter forward or adjusting the distance between the gutter and the gutter.
According to claim 1,
The doug portion 80,
It consists of a pin support rod (82) inserted into the teeth formed on the gear box (88) of the rack gear portion and a pin (84) that can be laid or erected by being fastened to the pin support rod. Automatic transfer system for gutters for unmanned hydroponic cultivation, characterized in that the gutters 720 can be pushed forward from both sides by the pins 84 mounted on the teeth 86 formed in the gear portion.

According to claim 2,
The doug portion 80,
Automatic transfer system for unmanned hydroponic cultivation, characterized in that the gap between the teeth (86) and the teeth (86) seated by the doug part can increase the interval between the gutters by increasing the number of teeth as the vegetable grows.









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