KR20130124756A - The pot for raising seedling with an easy watering and replanting - Google Patents

Abstract

The present invention relates to a seedling cultivation pot capable of easily watering and transplanting which includes the following: an opening on the upper side; a drain hole on the bottom to form the pot into a container form; multiple through-holes penetrating side walls of the pot, and blocking plates capable of being assembled to and separated from the through-holes; a protrusion unit protruding along the upper side of the pot toward the inside of the pot; watering grooves formed along the upper side of the protrusion unit; multiple watering holes extended from the watering grooves toward the inside; flowing holes penetrated to be in contact with the lower side wall by being formed on the watering grooves except for the vertical upper side of the through-holes; a supply hole extended from the side walls of the pot toward the watering grooves; and a drain net covering the drain hole. When a seedling is planted in soil inside the pot before supplying water through the supply hole, the water passes through the watering groove and the watering holes consecutively to be supplied from the upper side of the pot to the inside and passes through the flowing hole along the inner surface of the pot toward the bottom surface for the rapid and focused irrigation. The perfusion of nutrients is possible by the said watering method for facilitating the seedling cultivation. The transplantation is simple by removing the blocking plates and planting the seedling cultivation pot intactly, and is stable by providing the environment of the seedling cultivation pot. The watering and the supply of the nutrients are easy after the transplantation.

Description

The pot for raising seedling with an easy watering and replanting}

The present invention relates to a seedling port that is easy to irrigation and transplantation, and comprises a container-type seedling port in which an upper part is opened and a drain hole penetrated at the bottom, and a plurality of penetrations penetrated through the side wall of the seedling port. It constitutes a blocking plate that can be assembled and separated in the hole and its through hole, respectively, and forms a protrusion projecting inward along the upper part of the seedling port, and forms a plurality of watering grooves along the upper part of the protrusion part. Watering holes leading from the watering groove to the inside, and a plurality of through-holes to reach the lower side wall in the irrigation groove of the position other than the vertical upper portion of the through hole, the through hole to the water supply grooves through the side wall of the seedling port The seedling pot of the formation structure is formed, the drainage port of the seedling pot is blocked with a drainage net, the soil for seedling is filled in the usual way, the seedlings of trees are planted, Water is supplied from the upper part of the seedling port as it passes through the irrigation groove and the water hole sequentially, and some water passes through the flow hole and descends quickly from the inner surface to the lower surface. Since the water is rapidly supplied from the side and the bottom of the pot, quick and intensive irrigation is possible, and the irrigation of nutritional material is possible by such irrigation method, so that the seedling is easy, and the tree after the seedling is removed, As it is planted as it is, the transplantation process is easy, and the environment of seedlings is provided as it is, stable planting is possible, and after the transplantation, it is easy to supply watering and nutrients by the same watering method.

 In general, raising seedlings refers to growing young plants with roots used for crop cultivation or propagation of trees. In the seedling process, suitable environment, temperature, watering, etc. are important, and various ports are developed for this seedling. It is.

For example, in Korean Patent Registration No. 0818405, using a laminated sheet provided with a thermoplastic resin layer having water resistance on a paper substrate, the outer surface has a top curl portion formed by molding the paper substrate and the inner surface into a thermoplastic resin layer. As a hair growth port, the seed material contains 20 wt% or more of mechanical yarn pulp, has a cross-sectional penetration of 0 to 5 mm, and the contents of the seedling port having biodegradable characteristics.

In addition, in Korean Patent Publication No. 2010-0003389, a plurality of ports in which seedlings are planted vertically and horizontally on the upper surface of the tray are formed at regular intervals, and the seedlings having cross recesses formed in the grooved waterway between the ports adjacent to the front, rear, left and right sides. And a watering device for easily supplying water to each port by supplying water to the watering passage, and similarly, the domestic utility model registration No. 0452591 provides a drip irrigation seedling pot. The contents of this paper are posted, and the Korean Utility Model Application No. 2010-0001843 discloses the contents of the seedling pot for hardwoods.

In addition, in Korean Patent Registration No. 002436, combining seedling containers with at least one unit on a watering box that can hold water, and placing them vertically and horizontally in a planting plant, and soil each unit of the seedling container. Filling and sowing, connecting a water supply pipe to one side of the watering box, supplying water, and absorbing the water contained in the watering box into each unit to supply seedlings to the seedlings. The water is supplied by the irrigation seedling method, and the water is stored in the irrigation box to be reabsorbed, and the content of the seedling container is easily posted.

However, in the case of the first biodegradable seedling port illustrated above, there is a high possibility that the roots protrude outward during the seedling process, and when the roots protrude, it is difficult to separate the seedlings (or trees) from the pot after the seedling. In the case of a rather large seedling pot, such as wood, the biodegradable hair growth port had a big problem that the loss of water and soil during the hair growth period, there was a big problem of loss of water and nutrients.

In addition, the seedling tray of the second example, as well as the seedling port of the tray structure of the third and the fourth example, there is a feature that facilitates watering by the groove formed in the upper, but by supplying water from one side Since water is supplied to a plurality of ports, a lot of water is supplied to a port near the water supply side, and as the distance from the water supply side increases, less water is supplied, resulting in unbalanced watering as a whole.

In addition, in the case of the patents exemplified above, the water and nutrients are minimized, and the separation is easy after seedling. However, the larger the size, the heavier the weight becomes, which requires two or more people in the separation process.

In particular, in the case of using the pot for the existing seedlings, as in the second to the last example exemplified above, after planting, plants (or trees) must be separated and planted with soil from the pot for planting. When the soil is removed from the roots by the immature or non-expert, the problem of vegetation of plants or trees planted by the environment and the conditions after planting has occurred.

In addition, the existing seedling pot to drop the water from the top to the soil, supplying water to the plant, in the case of a bulky seedling pot applied to the tree, the water supplied to the upper surface is downward from the soil It takes a long time to descend and also absorbs much to the opposite side of the tree roots, so the lower roots are vulnerable to water supply, and the same problem arises with the supply of expensive nutrients for seedlings and vegetation. If the nutritional supplement is supplied in the same way, the loss of the nutritional supplement is high. As the nutritional supplement is injected around the roots, there is a problem in that manpower cost and time for directly injecting the nutritional supplement are increased. Irrigation and watering to absorb as much water and nutrients in the shortest time as possible The development of pots for seedlings having both) and drench functions is required.

In addition, when seedlings are planted in orchards, they are planted with large spacing between seedlings, and planted seedlings are managed for the first few years (generally 4 to 5 years). During planting, seedlings are planted (seedlings, planting different kinds of crops among the main crops, mainly beans, peanuts, and perilla), and the planted seedlings are far from each other. When cropping is difficult between seedlings, there is a high possibility that damage to stems or roots of planted seedlings may occur while planting and managing crop crops and harvesting crops.

Therefore, in order to solve the above problems, the upper part is open, and constitutes a container-type seedling port having a drainage hole penetrated to the bottom, but a plurality of through-holes and through-holes that penetrate the side wall of the seedling port. Each of which constitutes a blocking plate that can be assembled and separated from each other, forms a protrusion projecting inwards along the upper part of the seedling port, and forms a plurality of watering grooves that are dug along the upper part of the protrusions, Forming a plurality of through-holes and the flow hole through the water to the lower side wall in the irrigation groove of the position other than the vertical upper portion of the through hole, through the feed hole leading to the irrigation groove on the side wall of the seedling port for the seedling structure A pot is formed, the drainage port of the seedling port is blocked with a drainage net, the soil is filled in the seedling soil by the usual method, the seedlings of the tree are planted, and water is supplied to the supply hole. Cotton and water pass through the irrigation groove and the water hole sequentially to supply the inside from the upper part of the seedling port, and some water passes through the flow hole and quickly descends from the inner side to the lower side. As the water is supplied quickly from the lower part, fast and intensive irrigation is possible, and the irrigation of nutrients is possible by such irrigation method, so that the seedling is easy, and the tree after finishing the seedling is removed from the blocking plate, and the rearing port is spaced at regular intervals. As it is planted as it is, the transplantation process is easy, and even if it is intercropping, it is possible to manage the seedlings while minimizing the damage of planted seedlings. It can be planted, and even after transplanting, it is easy to supply irrigation and nutrients by the same watering method, and after planting, roots are fastened, As the growth is good, fruit trees can shorten the fruit harvest time, enabling early income from fruit tree planting.

In addition, a conventional three-way valve consisting of a 'T' tubular having one inlet and two outlets is further configured, the pipe is connected to the supply hole of the seedling port, the outlet of the three-way valve to the tube Is connected to the inlet of the three-way valve of the pipe connected to the outlet, and the other outlet located in the vertical upper is assembled with a sprinkler, to enable the direct supply of water and water supply by the sprinkler.

As described above, the present invention constitutes a container-type seedling port in which an upper part is opened and a drain hole penetrated at the bottom, and is assembled and separated into a plurality of through-holes and through-holes respectively penetrated through the side wall of the seedling port. Forming a possible blocking plate, and forming a protrusion projecting inwards along the upper portion of the seedling port, and forming a plurality of irrigation grooves along the upper portion of the protrusions, the irrigation hole leading from the watering groove to the inside, and In the irrigation groove at the position except the vertical upper part of the through hole, a plurality of perforated flow holes are formed so as to contact the lower side wall, and the feed hole leading to the irrigation groove on the side wall of the seedling port constitutes the seedling port of the forming structure. When the drainage port of the seedling port is blocked with a drainage net, the soil for seedlings is filled in the usual way, the seedlings of trees are planted, and water is supplied to the supply hole. While passing through the sequential supply from the upper part of the seedling port to the inside, and some water passes through the flow hole and quickly descends from the inner surface to the lower surface, so that the water is rapidly supplied from the side and the bottom of the seedling port, Fast and intensive irrigation is possible, and the irrigation of nutritious materials is possible by such irrigation method, so that seedling is easy, and the tree after finishing seedling is removed by blocking the blocking plate and planting the pot for regular growth at regular intervals, so that the transplantation process is easy. Even if it is intercropping, it is possible to manage the seedlings while minimizing the damage of planted seedlings, and it is economical by effectively using the orchard, and it is possible to stably plant the plants by providing the environment of the seedlings. As it is easy to supply watering and nutrients, and the rooting is fast after planting, In the case of wood, it shortens the fruit harvest time, there is an effect that the income can be realized at an early stage of the fruit trees planted.

In addition, a conventional three-way valve consisting of a 'T' tubular having one inlet and two outlets is further configured, the pipe is connected to the supply hole of the seedling port, the outlet of the three-way valve to the tube Is connected, the water supply is supplied to the inlet of the three-way valve of the outlet connected to the pipe, the sprinkler is assembled at the other outlet located in the vertical upper, there is an effect that the water can be directly supplied and the water supply by the sprinkler is easy. .

1 is a perspective view of a seedling pot according to the present invention.
2 is a plan view of the pot for raising seedling according to the present invention.
3 is a cross-sectional view taken along the line AA ′ of FIG. 2.
Figure 4 is a cross-sectional view showing a state in which the three-way valve and the sprinkler assembled in the seedling port according to the present invention.
Figure 5 is an assembly perspective view showing the assembly process of the blocking plate and the drainage net in the seedling port according to the present invention.
6 is a perspective view showing a state of raising seedling in the seedling pot according to the present invention.
Figure 7 is a cross-sectional view showing a state in which the three-way valve and the sprinkler is connected to the seedling seedling port according to the present invention.
8 is a plan view conceptually showing a state in which the seedlings are connected by connecting a plurality of seedling ports according to the present invention.
Figure 9 is a cross-sectional view showing a state in which planting a seedling tree in the seedling port in accordance with the present invention, the three-way valve and the sprinkler is connected to the vegetation.

The present invention relates to a seedling port that is easy to irrigation and transplantation, and comprises a container-type seedling port in which an upper part is opened and a drain hole penetrated at the bottom, and a plurality of penetrations penetrated through the side wall of the seedling port. It constitutes a blocking plate that can be assembled and separated in the hole and its through hole, respectively, and forms a protrusion projecting inward along the upper part of the seedling port, and forms a plurality of watering grooves along the upper part of the protrusion part. Watering holes leading from the watering groove to the inside, and a plurality of through-holes to reach the lower side wall in the irrigation groove of the position other than the vertical upper portion of the through hole, the through hole to the water supply grooves through the side wall of the seedling port The seedling pot of the formation structure is formed, the drainage port of the seedling pot is blocked with a drainage net, the soil for seedling is filled in the usual way, the seedlings of trees are planted, Water is supplied from the upper part of the seedling port as it passes through the irrigation groove and the water hole sequentially, and some water passes through the flow hole and descends quickly from the inner surface to the lower surface. Since the water is rapidly supplied from the side and the bottom of the pot, quick and intensive irrigation is possible, and the irrigation of nutritional material is possible by such irrigation method, so that the seedling is easy, and the tree after the seedling is removed, As it is planted as it is, the transplantation process is easy, and the environment of seedlings is provided as it is, stable planting is possible, and after the transplantation, it is easy to supply watering and nutrients by the same watering method.

Referring to the seedling port 100 according to the present invention, as shown in Figures 1 and 2, the seedling port 100 is a horizontal bottom 110 and the side wall protruding upward along the bottom edge thereof The 120 is integrally formed, and has a container shape with an open top structure, and has a general port shape.

And the bottom 110 of the seedling port 100 to form a through-hole drain 10, and further, a plurality of through-hole drain 20 formed in the lower side wall 120, Figures 4 and As shown in 5, the bottom 120 of the seedling port 100 is configured separately to the drainage network 200 that can drain the water while blocking the drain 10.

In addition, the lower groove 11 is formed along the edge of the bottom 110 of the seedling port 100, the lower groove 11 is formed in a fine shape, or the edge of the bottom 110 and the drain ( 10 to further form projections 12 protruding along, to form a lower groove 11 formed by the side wall 120 and the projections 12 and the bottom 120 therebetween, and In other functions, when the drainage network 200 is located inside the protrusion 11 to block the drain 10, the movement or movement of the drainage network 200 may be restricted by the protrusion 11.

In addition, the side wall 120 of the seedling port 100 further comprises a plurality of through holes 30 and a blocking plate 40 that can be assembled and separated from the through holes 30, and the through holes ( 30 is configured to penetrate in the shape of a circle or square, and the blocking plate 40 has a structure in which a plurality of mesh structures or holes are formed while completely blocking the through hole 30, and the blocking plate 40 ), The mesh structure forms an edge, and the inside of the edge is formed in a mesh form, or the structure in which a plurality of holes are formed in the blocking plate 40 is a hole penetrated inside the blocking plate 40 formed in a plate shape. It has a structure to form a plurality, the mesh or hole formed in the blocking plate 40 is configured to the extent that the dirt does not fall, the outer surface of the blocking plate 40 to form a handle more integrally.

On the other hand, the blocking plate 40 has a structure that is easy to assemble and separate in the through-hole 30, there are a variety of structures for such assembly and separation, for example, Figures 1, 4 and 5 As shown in, forming a pin protruding outward side to the lower side of the side of the blocking plate 40, the upper portion of the inside of the blocking plate 40 forms a locking portion protruding upwards, the through hole 30 Cylindrical grooves are formed on both sides thereof, so that the pins of the blocking plate 40 are hinged by the grooves, and when the blocking plate 40 is assembled to the through-hole 30, the locking part is provided for the seedling port 100. ) To prevent the separation plate 40 is separated from the inside.

A fine watering groove 51 is formed along the upper part of the seedling port 100, and the lower part of the watering groove 51 has a perforated watering hole 52 and a flow hole leading to the inside of the seedling port 100. To form a plurality of 53, for this purpose, to form a projection 50 to the inner center integrally along the edge, to form a fine watering groove 51 along the projection 50, the watering groove ( 51 and a plurality of through-holes 52 and flow holes 53 are formed along the water hole 52 so that the bottom of the through-holes do not touch the side wall 120 of the seedling port 100. In addition, the flow hole 53 is formed in the irrigation groove 51 in a position (excluding, out of) the vertical upper portion of the through hole 30, but the flow hole 52 is the bottom of the hole through the seedling port 100 And the water passing through the water hole 52 to fall off the bottom surface of the watering groove 51, and the water passing through the flow hole 52 is the seedling port 100 In order to facilitate the flow of the wall 120, as shown in FIGS. 1 to 3, a flow hole is provided in the side wall 120 of the seedling port 100 directly below the flow hole 53. 53 integrally forms a protruding guide 54 extending from both sides to the bottom 110.

In addition, a supply hole 55 is formed in the upper sidewall 120 of the seedling port 100 so as to be connected to the watering groove 51 from the outside, and the supply hole 55 is configured to receive water from the outside. The supply hole 55 is connected to the pipe 70 (general pipe, pipe, tube is possible), as shown in Figure 4, the three-way valve 80 (or three-way ball valve, It consists of a 'T' tubular with one inlet and two outlets, with a handle or knob for adjustment, and by the handle or knob adjustment to determine the direction of the outlet from which the fluid entering the inlet will exit. Facing inlet 82 and outlet 81 of the way valve 80 is configured horizontally, the other outlet 83 is configured to protrude to the top, the spout cooler 90 is configured to the outlet protruded to the top With the adjustment of knob 84, the direction of the water entering the inlet 82 is controlled by two outlets 8. 1) 83 is selected so that water flows out to the watering groove 51 or the sprinkler 90 of the seedling port 100.

In addition, as shown in Figure 1, the side of the seedling port 100 in the outside of the through hole 30 in the side of the seedling port 100, the handle is further configured integrally.

In this way, the upper part is open, the drain port 10 is formed in the lower portion of the container-type nursery port 100 is formed, the plurality of through-holes 30 through the side of the seedling port 100 and the through Comprising a separable plate 40 which can be separated and separated in the hole 30, and the irrigation groove 51 formed along the upper part of the seedling port 100 and the irrigation hole 52 extending from the irrigation groove 51 to the inside. ) And a flow hole 53, and forms a supply hole 55 leading to the watering groove 51 from the upper side of the seedling port 100, and a pipe and a three-way valve in the supply hole 55. 80 constitutes the seedling pot 100 of the assembled structure.

The seedling port 100 configured in this way is used for the seedling of the plant in the same manner as the conventional method, but mainly used for the seedling of the tree, as shown in Figure 5, the blocking plate 40 is all through holes ( 30), the drain 10 is put in the normal seedling soil in the seedling pot 100 in a state covered with the drainage net 200, planting a tree seedlings (seedling) in the soil, thus including seedlings The seedling seeding pot 100 may be placed on the ground and seeded as shown in FIG. 6, or as shown in FIG. 7, by raising a portion of the ground and seeded.

And the hair growth port 100 including the soil is configured in plural, and configured to supply water to the three-way valve 80 of each hair growth port 100, as shown in Figure 8, three way If a pipe 300 (tube, pipe, ordinary pipe, etc.) is formed in the valve 80, and the 'T'-shaped nipple 400 (or fitting, socket) is installed in the pipe, one supply pipe 500 is provided. Can be installed in a plurality of nursery port 100 in, a plurality of feed pipes 500 connected to the nursery port 100 can be configured a plurality, supply pipe 500 is connected to the distributor 600 The distributor 600 is connected to a tank or tap water to supply water from the tank or tap water.

Thus, when water is supplied to the distributor 600 by a tank or tap water, the supply pipe 500, the 'T'-shaped nipple 400, the pipe 300, the three-way valve 80 and the pipe 70 are sequentially After entering the watering groove 51 of the hair growth port 100, the water introduced into the watering groove 51 passes through a plurality of watering holes 52 or flow holes 53 to the inside of the hair growth port 100 Water is introduced into the water (when the water flows quickly, the water supply may be made by overflowing the irrigation groove into the inside), and the water passing through the irrigation hole 52 supplies water to the root and supplies water to the root, and flows Water passing through the ball 53 flows along the side wall 120 and the guide 54, and some water is supplied from the side of the soil to be delivered to the root, and some of the water is guided by the guide 54. While preventing spreading, water flows down the side wall 120 to the lower groove 11 of the bottom 110, and water is accumulated in the lower groove 11 and is sprayed from the bottom of the soil. Since the water is supplied to the li, by the supply of water, water is simultaneously three-dimensionally supplied from the upper, side, and bottom of the soil inside the hair growth port 100, and the roots of the planted seedlings supply a large amount of water in a short time. Since it is possible to receive a plurality of seedlings, there is a characteristic that can absorb the maximum water in a short time with the minimum water.

In this way, the structure for supplying water, in order to absorb nutrients and other drugs into the root, dilute the nutrients in water and supply them to the hair growth ports 100 by supplying water. While nutrients are supplied quickly in a short time without consuming, there is a feature that can prevent the loss of nutrients.

In addition, when the knob 84 of the three-way valve 80 is adjusted, water may be injected through the sprinkler 90.

Thus, the hair growth port 100 according to the present invention can individually supply water uniformly, the roots do not protrude to the outside, and the structure of the blocking plate 40 on the side (mesh structure, or a plurality of through holes) Formed structure), it is easy to distribute air to the seedling soil.

And seedlings of trees or plants through the seedling pot 100, and transplanted to another place by the sale of seedlings, in this case, the blocking plate is removed, the drainage network 200 of the lower, then removed in Figure 9 As shown, when planting the nursery pot 100 with the seedling tree as desired, the vegetation is made while the vegetation in the original soil while the plant is grown, the roots grow as the plant or plant grows larger and larger (10). And grows stably through the through-hole 30, unlike the existing hair growth port 100, without being removed, as it is directly planted while maintaining the existing soil, non-professional is easy to plant, stable There is a characteristic of planting and vegetation.

In addition, even in the case where the seedling port 100 containing the tree is transplanted to a desired place, as shown in Figure 9, the tree is planted at regular intervals, each tube 70, the seedling pot 100, Three-way valve 80, pipe 300, 'T'-shaped nipples 400 are installed in sequence, and as shown in Figure 8, each of the' T'-shaped nipples 400 in a row supply pipe 500 ), And then install a plurality of rows in such a way, and then a plurality of supply pipes 500 are connected to the distributor 600, supplying water to the distributor 600, the planted tree is rooted in the shortest time It can supply water to absorb water, it is easy to supply nutrients, it is economical because the consumption of manpower is minimized, and watering and irrigation for planted trees is convenient.

Moreover, even if intercropping between planted seedlings, it is possible to manage the seedlings while minimizing the damage of planted seedlings. In the case of fruit trees, the fruit harvesting time is shortened, so that income according to fruit tree planting can be realized early, and the seedlings are managed and planted until the time when the fruit is produced using the seedling pot according to the present invention, the seedlings This is included as a seedling for sale or permanently planted in orchards, fruit can be harvested in a short time, there is a more economical feature.

10: drain hole 20: drain hole
30: through hole 40: blocking plate
50: protrusion 52: water hole
80: three-way valve 90: sprinkler
100: seedling pot

Claims (4)

In the container-type seedling port in which the upper part is opened and the drain hole is formed in the bottom by the structure which integrated the horizontal bottom and the side wall which protruded along the bottom edge,
A plurality of through holes penetrated along the side wall of the seedling port, and blocking plates that can be assembled and separated in the respective through holes,
Forming a watering groove formed along an upper portion of the seedling port and a watering hole extending from the watering groove to the inside;
By constructing a pot for raising seedlings of the structure having a supply hole leading to the irrigation groove from the upper side of the seedling pot,
Watering is supplied to the supply hole while raising seedlings through the seedling port, so that water flows in through the watering groove and the watering hole sequentially, so that watering is easy, and the planting plate can be removed and planted as it is. Pots for seedlings that are easy to irrigate and transplant.
The method of claim 1,
The upper part of the seedling port protruding to the inner center integrally formed along the edge, the irrigation groove is formed along the upper portion of the projection, the irrigation holes are formed in a plurality at regular intervals along the lower portion of the irrigation groove,
A through hole is formed in the irrigation groove of the position beyond the vertical upper portion of the through hole, and the lower end of the through hole is formed to contact the side wall.
Forming a lower groove along the bottom edge of the seedling port;
The blocking plate is formed of a mesh structure or a structure formed with a plurality of through holes,
Easy porting and porting seedling, characterized in that the three-dimensional irrigation from the top, side, bottom by the irrigation hole, the flow hole and the lower groove.
The method of claim 2,
On the side wall of the lower portion of the flow hole, guides protruding along both sides of the lower portion of the flow hole are integrally formed,
Protrusions are formed along the bottom edge and the drain hole, and the lower groove is formed by the bottom between the sidewall and the protrusion,
A watering and porting port for easy seedling and transplanting, characterized in that the water passing through the flow hole flows down to the lower groove by the guide.
4. The method according to any one of claims 1 to 3,
The conventional three-way valve consisting of a 'T' tubular having one inlet and two outlets is further configured.
A pipe is connected to the supply hole of the seedling port, and an outlet of the three-way valve is connected to the tube, water is supplied to the inlet of the three-way valve of the outlet to which the pipe is connected, and a spring is provided at the other outlet located vertically upward. The cooler is assembled,
Port for easy irrigation and transplanting seedlings, characterized by direct water supply and water supply by sprinklers.

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