KR20210001835A - Smart farm automatic cultivating device for crop - Google Patents

Abstract

The present invention relates to an automated smart farm crop cultivation device, and more specifically, to an automated smart farm crop cultivation device, in which a plurality of racks are cyclically moved in such a way that the plurality of racks loaded with trays in which crops grow are sequentially transferred and mounted on a stationary work unit through a moving section unit in a state in which a worker is located on a lift, and then the racks sequentially re-enter the moving section unit by a push device after the worker located on the lift that moves up and down completes work on the crops, such that the worker can conveniently perform work on the crops in a state of being located at a fixed work area, and thus, working convenience and productivity can be improved.

Description

Smart farm automatic cultivating device for crop}

The present invention relates to a smart farm crop automation cultivation apparatus, and more specifically, a plurality of racks loaded with trays in which crops are grown in a state where an operator is located on a lift are sequentially transferred to and mounted in a mounting operation unit through a moving section. When the worker located in the up/down lift completes the work on the crop, the racks are circulated in a way that they are sequentially re-entered into the moving section by the push device, and the worker is conveniently located in a fixed work area. It relates to a smart farm crop automation cultivation device that can improve the convenience and productivity of work by performing.

As the industry develops and the population increases, agricultural land or clean areas are decreasing due to the expansion of various factory facilities and the construction of houses.In particular, the agricultural land where agricultural crops are grown by the use of chemical fertilizers has become barren as well as industrial pollution. With the increase, cultivation of clean agricultural products or various plants is becoming increasingly difficult, and plants growing in such environments are not growing properly.

In particular, in places that cultivate special crops as well as general farms, various special facilities are provided to improve the productivity of cultivated plants or crops, and a lot of efforts are being made to obtain high income by cultivating crops and plants regardless of the season. Actually, there is a problem in that, while a lot of cost and labor are required, economic profits cannot be greatly increased. In particular, crops grown in trays are stacked on multiple layers of racks that can be stored in multiple stages. There is a problem in which the convenience and productivity of work are remarkably deteriorated because the work is performed by an operator at the site, but the height of the rack is high, and since the work has to be carried out by moving directly using a ladder, etc.

On the other hand, there is a conventional technology related to the crop working device, such as Republic of Korea Patent Publication No.

The present invention was conceived to solve the problems of the prior art as described above, and a plurality of racks loaded with trays on which crops are grown while an operator is located on a lift are sequentially transferred to and mounted on a stationary work part through a moving section. After that, the racks are circulated in a way that, when the worker located on the lift that moves up and down completes the work on the crop, they are sequentially re-entered into the moving section by a push device. The purpose of this is to provide a smart farm crop automation cultivation device that can improve the convenience and productivity of work because it can perform the work.

A smart farm crop automation cultivation apparatus according to the present invention for achieving the above object comprises: a moving section for transferring a rack loaded with a plurality of trays in which crops are grown; A mounting operation unit for mounting the rack transferred through the moving section; And a lift for performing work on crops loaded on the rack mounted on the rack mounted on the rack while a worker boards and moves up and down, wherein the mounting operation unit moves the rack mounted on the rack It characterized in that it comprises a; push device for input to the section.

In this case, the moving section may include a plurality of driving rollers formed at left and right ends of the moving section; A drive belt formed to surround the shaft portions of the plurality of drive rollers and rotated by a motor; And a transfer roller formed between the plurality of drive rollers.

In addition, the mounting operation unit, a sensor for detecting the movement of the push device; characterized in that it further comprises.

The smart farm crop automation cultivation device according to the present invention is located in a lift that moves up and down after a plurality of racks loaded with trays for growing crops are sequentially transferred to and mounted through a moving section while an operator is on a lift. When the worker completes the work on the crop, the racks are circulated in a way that they are sequentially re-entered into the moving section by the push device, so that the worker can conveniently perform the work on the crop while located in the fixed work area. There is an effect that can improve the convenience and productivity of the product.

The effects of the present invention are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a schematic diagram showing the overall configuration of a smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view of a smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
3 is a view showing the appearance of a moving section in the smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
Figure 4 is a view showing the appearance of the mounting operation in the smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
5 is a view showing the state of the push device in the smart farm crop automated cultivation device according to an embodiment of the present invention.
6 is a view showing the appearance of a lift in the smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
7 is a view showing the operating process of the smart farm crop automated cultivation apparatus according to an embodiment of the present invention.
8 is a view showing a state of a push device according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations irrelevant to the gist of the invention will be omitted or compressed, but the omitted configuration is not necessarily a configuration unnecessary in the present invention, and will be combined and used by a person having ordinary knowledge in the technical field to which the present invention belongs. I can.

1 is a schematic diagram showing the overall configuration of a smart farm crop automated cultivation device according to an embodiment of the present invention, Figure 2 is a perspective view of a smart farm crop automated cultivation device according to an embodiment of the present invention, Figure 3 is of the present invention It is a view showing the appearance of the moving section in the smart farm crop automated cultivation device according to the embodiment, Figure 4 is a view showing the appearance of the mounting operation in the smart farm crop automated cultivation device according to an embodiment of the present invention, Figure 5 A view showing the state of the push device in the smart farm crop automated cultivation device according to an embodiment of the present invention, Figure 6 is a view showing the state of the lift in the smart farm crop automated cultivation device according to an embodiment of the present invention, Figure 7 It is a view showing the operating process of the smart farm crop automated cultivation device according to an embodiment of the present invention.

Hereinafter, with reference to FIGS. 1 to 7, the configuration of the smart farm crop automated cultivation apparatus according to the present invention will be described in detail.

As shown in FIGS. 1 to 7, the smart farm crop automation cultivation apparatus according to the present invention is largely composed of a moving section 100, a mounting operation unit 200, a push device 240, and a lift 300.

The moving section 100 is a configuration for transferring the rack 400 loaded with a plurality of trays on which crops are grown in the left and right directions in the drawing, and two moving sections for transferring the rack 400 in opposite directions to each other. The frame 110 of the 100 is formed to abut back and forth, and a plurality of supports 120 are formed at the lower end of the frame 110.

The shafts of the plurality of driving rollers 140 and the plurality of driving rollers 140 are connected by connecting rods 150 and rotated together at the inner left and right ends of the frames 110 of each of these moving sections 100 A driving belt 160 is formed surrounding the portion, and a first motor 130 for rotating the driving belt 160 is formed outside the frame 110. Accordingly, the driving belt 160 surrounding the shaft portion of the plurality of driving rollers 140 rotates by the driving of the first motor 130 to rotate the driving rollers 140 to move the rack 400 left and right. Will be ordered. At this time, the circumferential outer circumferential surface of the driving roller 140 is formed of a rubber material having a high coefficient of friction, and the driving belts 160 formed at both ends of the moving section 100 are always driven together to push the rack 400 By operating in a manner of pulling the moved rack 400 so that the rack 400 can be transported smoothly.

In addition, a plurality of transfer rollers 141 are formed between the drive rollers 140 and the drive belts 160 respectively formed at the left and right ends of the moving section 100, and the transfer rollers 141 are separately driven. The rack 400 is rotated in contact with the lower end of the rack 400, which is pushed to the left or right by the driving belt 160 that rotates through the first motor 130 without rotating by the device. Make sure to transfer smoothly.

In addition, as shown in Figs. 2 and 3, horizontal guide rollers 142 are formed on the top surfaces of both frames 110 of the moving section 100, and the horizontal guide roller 142 is a rack 400 By rotating in contact with the side of the rack 400 serves to hold it so as not to shake in the horizontal direction when moving.

As described above, in the present invention, only the driving rollers 140 formed at the left and right ends of the moving section 100 are rotated by the first motor 130, and the rack 400 pushed by the driving roller 140 is a separate Since the rack 400 is moved to the left and right by the transfer roller 141 that rotates in contact with the rack 400 without a driving device, the rack 400 is naturally in close contact with each other by pushing the rack 400 in close contact with each other by the driving roller 140. There is no need for complicated control to place the) in close contact. That is, when using a conveying method through a conveyor belt as in the prior art, a complicated control command will be required to place the racks 400 in close contact with each other, but in the present invention, the racks 400 are in close contact with each other by the driving roller 140 By being in close contact naturally by pushing the racks 400 in close contact, there is no need for a complicated control for positioning.

In addition, in the present invention, since a drive device is not used as a transfer means of the moving section 100 and only a roller is used, even if water falls from the crops loaded in the rack 400, the device does not fail. If a driving conveyor or the like is installed as the transfer means of the moving section 100, there may be a risk of damage to the driving device by causing electric shorts or damaging the motor, but in the present invention Since only the roller is used as the conveying means, the above-described danger is avoided.

The mounting operation unit 200 mounts the rack 400 transferred through the movement section 100 so that the operator can perform the work and at the same time moves the rack 400 in the front and rear directions on the drawing after the work is finished. It is a configuration for entering the moving section part 100 again after being made, and is formed on the left and right sides of the moving section part 100, respectively, and a plurality of support parts 220 are formed at the lower end of the mounting operation part 200, A push device 240 for mounting and transporting the rack 400 is formed at the top.

Transfer chains 210 are formed at both ends of each of the mounting operation units 200, and the transfer chains 210 are connected to a connecting rod 221 rotating by a third motor 220 and rotate together. In addition, a sensor 230 for detecting the movement of the push device 240 to be described later is formed inside the mounting operation unit 200.

The push device 240 is formed in a state where the protruding portion of the lower end is caught on the upper end of the transfer chain 210 formed at both ends of the mounting operation unit 200 and moves in the vertical direction on the drawing by the rotation of the transfer chain 210 In the configuration, a plurality of push rollers 242 that are connected by connecting rods 243 on the inside of both body parts 245 and rotate together and a push belt 244 surrounding the outside of the plurality of push rollers 242 are formed. In addition, a second motor 241 for rotating the push belt 244 is formed outside the body 245. Accordingly, the push belt 244 surrounding the outside of the plurality of push rollers 242 is rotated by the driving of the second motor 241 to enter the rack 400 into the moving section 100. At this time, since the protruding portion at the bottom of the push device 240 moves while being caught in the transfer chain 210 as described above, there is no slip between the mounting operation unit 200 and the push device 240, so the push device (240) is fixed to the mounting operation unit 200 without moving. Accordingly, the rack 400 mounted on the upper end of the push device 240 does not move during the work, so that the operator can help to perform the work.

In addition, since the push belt 244 is used to transport the push device 240 while supporting the rack 400, the contact area between the push belt 244 and the lower end of the rack 400 is large. The placed rack 400 does not slide, and accordingly, the rack 400 placed on the push device 240 does not move during the work, so that the operator can help to perform the work.

The lift 300 is a configuration for performing work on the crops loaded on the rack 400 mounted on the mounting work unit 200 while an operator boards and moves up and down, and is formed on the left and right sides of the moving section 100 It is installed to be fixed in close contact with each of the mounting operation unit 200.

This lift 300 is composed of a frame 310 and a worktable 320 that is movable up and down along the frame 310, and the worker moves up and down while riding on the worktable 320 while crops loaded on the rack 400 Can be performed, and although not shown in the drawing, the operator in the lift 300 controls the operation of the moving section 100, the mounting operation unit 200, the push device 240 and the lift 300 A plurality of control buttons (not shown) are formed for. The lift 300 having the worktable 320 formed to move up and down with respect to the frame 310 through a chain (not shown) is a known configuration and a detailed description thereof will be omitted.

On the other hand, the crop mentioned in the present invention is not limited to a specific type if it is possible to be loaded on the tray and the rack 400, including crops.

The smart farm crop automation cultivation apparatus according to the embodiment of the present invention described above will be further specified through the description of the following operation process.

Hereinafter, with reference to FIGS. 1 to 7, the operation process of the smart farm crop automation cultivation apparatus according to an embodiment of the present invention will be described in detail, but will be described based on the positions indicated by alphabets in FIG. 7.

In addition, in the following, a plurality of racks 400 are located at the upper ends of the two moving section portions 100 in contact with each other to fill the entire area of the two moving section sections 100, A process of performing a task in a state in which a rack is not located in the mounting operation unit 200 formed at both ends of the left and right will be described.

First, a plurality of racks 400 are located at the top of the two moving sections 100 in contact with each other to fill the entire area of the two moving sections 100, and the left and right ends of the moving section 100 The driving belt 160 located at the left and right point D of the moving section 100 is rotated by the first motor 130 in a state in which the rack is not located in the mounting operation unit 200 formed in the When the rack 400 is moved and mounted to the left and right points A of the mounting operation unit 200, the workers located in the lifts 300 on both sides are located at point A of the right mounting operation unit 200 and A of the left mounting operation unit 200 Performs work on the crops loaded in the racks 400 respectively mounted at the point.

After all the work on the crops loaded in the rack 400 is completed, when the workers on both sides press the control button (not shown) to transfer the finished rack 400, the third motor of the stationary work unit 200 220 starts to drive and the transfer chain 210 rotates, and accordingly, point A of the right mounting work part 200 of FIG. 7 and the left mounting work part 200 in a state in which the rack 400 is mounted. ), the push devices 240, which were respectively located at point A, are moved to point B of the mounting operation unit 200, respectively.

Thereafter, when the sensor 230 formed inside each mounting operation unit 200 detects that each push device 240 has moved to the point B, the second motor 241 of each push device 240 is As the push belt 244 that was in contact with the lower end of the rack 400 mounted on each push device 240 rotates, the rack 400 mounted on each push device 240 These are each entered into the left and right points C of the moving section 100, and accordingly, the racks 400 filled in the remaining points except for the left and right points D of the moving section 100 are As the rack 400 is pushed to each of the racks 400 moved to the left and right points C and moves on the transfer roller 141 of the moving section 100, the rack 400 is positioned to the left and right points D, which was empty, and eventually the moving section The rack 400 is located at all points of (100).

Thereafter, when the push device 240 located at the left and right points B of the mounting operation unit 200 returns to the left and right points A of the mounting operation unit 200 again by the transfer chain 210, the left and right sides of the moving section 100 The driving belt 160 located at the point D rotates by the first motor 130 to move and mount the rack 400 located at the left and right point D to the left and right points A of the mounting operation unit 200, and then lift both sides. A worker located at 300 performs work on the crops loaded in the rack 400 mounted at point A of the right mounting work unit 200 and point A of the left mounting work unit 200, respectively.

Thereafter, when the operation is completed, the operation is performed on all the racks 400 loaded by repeating the above process.

As described above, in the smart farm crop automation cultivation apparatus according to the present invention, a plurality of racks loaded with trays on which crops are grown while the operator is located on a lift are sequentially transferred to and mounted in a mounting operation unit through a moving section, and then vertically elevated. When the operator located on the lift completes the work on the crop, the racks are circulated in a way that they are sequentially re-entered into the moving section by the push device, so that the operator can conveniently perform the work on the crop while being located in the fixed work area. There is an effect that can improve the convenience and productivity of work.

Meanwhile, FIG. 8 is a view showing a state of a push device according to another embodiment of the present invention.

As shown in Figure 8, the push device 250 according to another embodiment of the present invention is connected to both sides of the body portion 254 to rotate a plurality of connecting rods 252 and the outside of the plurality of connecting rods 252 An enclosing push chain 253 is formed, and a third motor 251 for rotating the push chain 253 is formed outside the body portion 254. Accordingly, the push chain 253 surrounding the outside of the plurality of connecting rods 252 is rotated by the driving of the third motor 251 to enter the rack 400 into the moving section 100.

In addition, rotating rods 257 with wheels 258 installed at both ends are formed on both sides of the lower end of the body 254 of the push device 250, respectively, and formed to surround the outside of the rotating rod 257 on the rotating rod 257 And a rotating chain 256 is formed that rotates by the fourth motor 255 formed in the lower center of the body portion 254. Accordingly, by the drive of the fourth motor 255, the rotating chain 256 surrounding the outer side of each rotating rod 25 rotates and rotates the rotating rod 257, thereby rotating wheels installed at both ends of the rotating rod 257 ( By rotating 258, the push device 250 is moved by the mounting operation unit 200.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art with ordinary knowledge of the present invention will be able to make various modifications, changes and additions within the spirit and scope of the present invention. And additions will be seen as falling within the scope of the claims of the present invention.

<First Example>
100: moving section
110: frame
120: support
130: first motor
140: drive roller
141: transfer roller
142: horizontal guide roller
150: connecting rod
160: drive belt
200: stationary work unit
210: transfer chain
220: third motor
221: connecting rod
230: sensor
240: push device
241: second motor
242: push roller
243: connecting rod
244: push belt
245: body part
300: lift
310: frame
320: worktable
400: rack
<Second Example>
250: push device
251: third motor
252: connecting rod
253: push chain
254: body part
255: fourth motor
256: rotating chain
257: rotating rod
258: wheel

Claims (3)

A moving section for transferring a rack loaded with a plurality of trays in which crops are grown;
A mounting operation unit for mounting the rack transferred through the moving section; And
Including; a lift for performing work on the crops loaded in the rack mounted on the mounting work unit while the operator is boarding and moving up and down
The mounting operation unit,
A smart farm crop automation cultivation apparatus comprising: a push device for inserting the rack mounted on the mounting operation unit into the moving section.
The method of claim 1,
The moving section,
A plurality of driving rollers formed at left and right ends of the moving section;
A drive belt formed to surround the shaft portions of the plurality of drive rollers and rotated by a motor; And
Smart farm crop automation cultivation apparatus comprising a; transfer roller formed between the plurality of driving rollers.
The method of claim 1,
The mounting operation unit,
A sensor for detecting the movement of the push device; smart farm crop automated cultivation device, characterized in that it further comprises.

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