KR200452591Y1 - Drip irrigation seedling pot - Google Patents

Abstract

The present invention relates to a drip irrigation seedling pot, and when water and nutrient solution is supplied to the upper part of the seedling pot by a drop hose, it is supplied to the reservoir along the water channel formed on the upper surface of the seedling pot, and each individual port in the reservoir The same amount of water and nutrient solution can be distributed and supplied so that uniform growth of seedlings or crops is possible, and a plurality of individual ports 12, which are planted vertically and horizontally, on the upper surface 11 at regular intervals And a water channel 14 is formed between the left and right adjacent ports 12, and a branch path 16 through which water and nutrient solution flows from the water channel 14 to the individual port 12 is formed. In; The irrigation channel 14 is formed with a reservoir 18 in which water and nutrient solution accumulate at an intermediate point between four adjacent ports 12 in all directions, and the branch passage 16 has an individual port (10) in the reservoir 18. 12) is formed to be inclined downward, the waterway 14 is formed to be inclined downward toward the reservoir (18).

Description

Drip watering planting pot

The present invention relates to a drip irrigation type seedling pot, and when water and nutrient solution is supplied to the upper part of the seedling pot by the drop hose, the water is collected in a reservoir along the water channel formed on the upper surface of the seedling pot. It is possible to uniformly grow seedlings and crops by distributing a uniform amount of water and nutrient solution to individual pots.

The drip irrigation tray according to the prior art forms a main irrigation channel on the upper surface of the tray, and installs a drop hose on the top so that water and nutrient solution can be directly supplied to the soil where the root is located so that water droplets do not fly to the ground of the crop. For example, overflow prevention jaw and water gradient are formed in the main waterway where the drip hose is installed, and the inclined oval snail waterway is formed inside the port so that the water volume per port becomes uniform. By controlling the amount and frequency of water supply by automatic pump and timer, according to the producer's intention to control the height, leaf, size and crown diameter of seedlings, it is possible to produce excellent and uniform seedlings even in mass seedling production. I did it.

On the other hand, in the conventional drip irrigation tray (port) as described above, the amount of water and nutrient solution to be supplied to each main irrigation channel is provided when the overflow gap is formed in the main irrigation channel so that the hole spacing of the drip hose is not dense. As a result, a difference in the amount of water and nutrient solution supplied to each individual port was generated, and thus, there was a limit to promoting uniform growth of crops.

In addition, in the conventional drip irrigation tray, the bottom of the main irrigation channel consists of only a semicircular cross-sectional shape, and the gradient is not large, causing water and nutrient solution from the drip hose to stagnate into the main irrigation channel, thereby causing pests at the bottom of the main irrigation channel. There was a problem that the eggs of various bacteria or pests to be breeding.

The present invention is devised to solve the above problems, the purpose of the present invention is to supply the water and nutrient solution to the upper part of the seedling pot by the dropping hose, once gathered in the reservoir along the water channel formed on the upper surface of the seedling pot. In this water tank, the same amount of water and nutrient solution can be distributed to each individual port so that seedlings and crops can be uniformly grown. It is to provide an drip irrigation seedling pot with an improved structure that can prevent habitat.

In order to achieve the above object, the present invention has a plurality of individual ports in which seedlings are planted vertically and horizontally on an upper surface thereof, and a water channel is formed between the left and right adjacent ports, and water from the water channel to the individual ports. In a port formed with a branching passage through which the nutrient solution flows; The irrigation canal is formed with a reservoir in which water and nutrient solution accumulate at an intermediate point between adjacent ports in all directions, and the branch is formed to be inclined downward from the reservoir to the individual port, and the irrigation canal is inclined downward toward the reservoir. Provide watering seedling pots.

In a preferred embodiment of the present invention, the bottom of the irrigation canal is formed in a double to allow water and nutrient solution to flow into the reservoir without stagnation in the bottom of the irrigation channel, spiral or staircase on the inner surface of each individual port It provides a drip irrigation seedling pot to form a water basin so that the water flowing into the branch can rotate along the water basin and be evenly supplied around the roots of the crops planted in each individual pot.

The present invention collects water and nutrients from the irrigation channel and collects them in the water tank uniformly and then supplies them to each individual port through the branching furnace to uniformly control the amount of water and nutrients supplied to each individual port. A single growth can be achieved, and since water and nutrients are collected in the reservoir instead of staying in the aqueduct, they are quickly supplied to each individual port through the branch passage, so that water and nutrients are not stagnated in the irrigation channel. Since it is possible to prevent the breeding of various bacteria and pest eggs that cause, it has a practical effect that enables the production of healthy seedlings.

1 is a perspective view of a seedling pot according to the present invention,
2 is a bottom perspective view of the seedling pot according to the present invention,
3 is a plan view of the seedling pot according to the present invention,
4 is a cross-sectional view taken along line AA ′ of FIG. 3;
5 is a cross-sectional view taken along line B-B 'of FIG. 3 showing a state in which a hose is gradually installed and water is supplied to each port;
Figure 6 is a bottom perspective view of a seedling seedling port showing another embodiment of the present invention,
7 is a cross-sectional view taken along the line CC ′ of the seedling pot shown in FIG. 6.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 to 5, a plurality of individual ports 12 are formed at regular intervals in which seedlings are planted vertically and horizontally on the upper surface 11 of the seedling port 10, and the adjacent ports (left and right adjacent to each other) ( 12, a water channel 14 is formed between the ports in which the water flow and nutrient solution flows from the water channel 14 to the individual ports 12; The irrigation channel 14 is formed with a reservoir 18 in which water and nutrient solution accumulate at an intermediate point between four adjacent ports 12 in all directions, and the branch passage 16 has an individual port (10) in the reservoir 18. 12) is formed to be inclined downward, the water passage 14 is formed to be inclined downward toward the reservoir (18).

In the present invention, the waterway 14 has a bottom 14 so that the valley 14a is formed in a double so that the water and nutrient solution does not stagnate at the bottom of the waterway 14, both through the narrow and low valleys 14a. In order to be able to be introduced into the conventional port to solve the problems caused by the stagnation of water and nutrient solution at the bottom of the irrigation canal.

In addition, in the present invention, the water passage 14 is formed in the horizontal direction as well as in the vertical direction on the upper surface 11 of the port 10 to cross in the water reservoir 18 in the direction of installing the port in the house Drip irrigation is possible regardless.

In addition, in the present invention, a spiral jaw 13 is formed on the inner surface of each individual port 12 so that water flowing into the branch path 16 rotates along the spiral jaw 13 to each individual port 12. It is possible to supply uniformly around the roots of planted crops.

In the figure, reference numeral 14b denotes a floor portion formed at an intermediate point of the waterway 14, that is, a middle point between the left and right water reservoirs 18, and the waterway 14 is downward from the floor portion 14 toward the water reservoir 18. It is formed to be inclined so that the water and the nutrient solution from the drop hose (not shown) to the irrigation channel 14, the water is branched to the left and right sides of the floor portion 14b and flows uniformly in each reservoir 18 The water and nutrient solution are to be collected.

Reference numeral 15 denotes a clip fixing hole formed in the upper surface 11 of the seedling port 10. The clip fixing hole 15 is formed adjacent to the left and right sides of the irrigation channel 14. The drain port is formed on the side of each individual port 12 serves to discharge the excess amount of water and nutrient solution to the outside and at the same time serves to supply oxygen to the roots.

In the present invention, the reservoir 18 has a bottom lower than that of the water channel 14, and the branching path 16 is radially inclined downward from the bottom of the reservoir 18 toward each individual port 12 again. The water and nutrient solution introduced into the reservoir 18 is distributed in a uniform amount to each individual port 12 through each branch path 16 is supplied.

In the present invention, the spiral jaw 13 formed on the inner surface of each individual port 12 forms the spiral jaw 13 in the counterclockwise direction when used in the northern hemisphere in consideration of the effect of Coriolis due to the earth's rotation, When used in the southern hemisphere, it is preferable to form a spiral water jaw 13 in a clockwise direction so that water and nutrient solution can be effectively supplied while wrapping around the roots of crops planted in each individual pot.

The spiral jaw 13 may form only at least one pitch as shown in the drawing, but preferably at least one pitch within a range that does not excessively change the upper and lower diameter ratios of the pot, thereby forming water and nutrient solution. It is necessary to ensure a uniform distribution of.

Meanwhile, in the present invention, the branch path 16 may also be formed in a straight line in consideration of the effect of Coriolis. However, the length of the branch path 16 is linear because it is preferable to manufacture the shortest distance from the reservoir to the port. It is necessary to form, and the bottom of the branch passage 16 may also be formed in a semi-circular shape or may be manufactured in the form of a double bone such as the bottom of the irrigation channel.

The drip irrigation seedling pot of the present invention configured as described above is the water and nutrient solution supplied from the drip hose (not shown) to the irrigation channel 14 to be first collected in the reservoir 18, and the water collected in the reservoir 18. The excess and nutrient solution is uniformly supplied to each individual port 12 through the branch path 16 formed at the shortest distance toward each individual port, so that the amount of water and nutrient solution can be uniformly controlled, thereby improving the uniform growth of crops. It can be planned.

In addition, in the present invention, water and nutrient solution is collected in the reservoir 18 without staying in the water channel 14, and then is quickly supplied to each individual port 12 through the branch channel 16, so that the water in the water channel 14 Since excess nutrient solution is not needed, it can prevent stagnation of various bacteria or pests that cause pests, and water and nutrient solution are collected in the reservoir tank 18 regardless of the gap of the drop hose. Again distributed to each individual port 12, the water and nutrient solution supplied to each individual port 12 is uniform throughout the root of the crop located in the center of each individual port 12 through the spiral jaw (13) It is possible to effectively prevent the water and nutrient solution is discharged to the outside as it is supplied economically, and the vigorous growth of the roots is possible, so that the production of healthy seedlings is possible.

6 and 7 show another embodiment of the present invention, and the overall configuration is the same as the embodiment shown in FIGS. 1 to 5, except that a spiral step 13 is provided on the side of the individual port 12. Instead of being formed, there is a difference in that the stepped stair 13 'is formed.

In the present embodiment, the stepped stair 13 'may be formed only as shown in the drawing, but by forming a plurality of stepped stairways 13' at upper and lower predetermined intervals, the water and the nutrient solution are immediately bottomed. It is also possible to prevent the flow of water and the topsoil filled inside of each individual port to be sufficiently absorbed. The combination of stepped water and spiral water can further increase the diffusion of water and nutrient solution around the inside of the individual port. Of course, it can also be made smoothly.

10: seedling seed pot 11: upper surface
12: individual port 13: spiral jaw
13 ': staircase 14: irrigation canal
14a: Goal 14b: Floor
15: clip fixing hole 16: branch
17: drain 18: reservoir

Claims (4)

delete A plurality of individual ports 12 in which seedlings are planted vertically and horizontally on the upper surface 11 are formed at regular intervals, and a water channel 14 is formed between the individual ports 12 adjacent to the left and right, and the water channel 14 A port in which a branching passage 16 is formed in which water and nutrient solution flow into a separate port 12;
The irrigation channel 14 is formed with a reservoir 18 in which water and nutrient solution accumulate at an intermediate point between four adjacent ports 12 in all directions, and the branch passage 16 has an individual port (10) in the reservoir 18. 12) is formed to be inclined downward, the irrigation canal 14 is formed to be inclined downward toward the reservoir 18, the irrigation canal 14 is a drop pipe characterized in that the bottom of the bone 14a is formed in a double Formula seedlings pot. The method according to claim 2,
The drip irrigation seedling pot, characterized in that the spiral jaw 13 is formed on the inner surface of each individual port (12). The method according to claim 2,
The drip irrigation seedling pot, characterized in that the stepped water step (13 ') is formed on the inner surface of each individual port (12).

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