KR101844418B1 - The seedling box for young rice plant-to-be dispersed - Google Patents

Abstract

The present invention relates to a nursery box for a midwife having a bottom surface, which is formed as a continuous pattern on the bottom surface of the bottom surface and integrally protrudes, has a diagonal distance of 14.0-22.0 mm and has a thickness of 2.5-5.0 mm And the bottom has a small diameter of 0.7 to 1.5 mm on the top surface and a large diameter of 1.4 to 3.0 mm on the bottom of the bottom surface. It is possible to prevent deformation and distortion of the bottom surface due to the honeycomb-shaped ribs and to prevent the ribs from overlapping with each other so that there is little variation in strength reinforcement on the bottom surface, It is difficult for the user to remove the seedlings from the seedling box because the roots of the seedlings do not extend outward from the bottom through the small diameter due to the conical penetration hole without being abraded by the user during the transportation or handling of the midwife And nutrients, water and air are supplied smoothly through the large diameter.

Description

The seedling box for young rice plant-to-be dispersed

More particularly, the present invention relates to a sandwich incubation box for a midwife, and more particularly, to a sandwich box for a midwifery The ribs protruding as one body are formed into a curved shape at the end. The honeycomb is formed in a honeycomb shape. A conical through hole is formed on the bottom surface to facilitate separation of seedlings and supply of nutrients and water to the seedlings. The present invention relates to a nursery box for midwifery which can be used in a general manner.

In general, the nurse is a box for raising a flat box or gardening specimen for raising a grave for the mechanical transfer of the monks. Among them, the midwife for the toddler is standardized to be suitable for the reaping period. A plastic box with a width of 60cm, a length of 30cm, an inside of 58cm, 28cm and a height of 3cm. There are 1,500 ~ 1,600 holes with a diameter of 5mm at the bottom of the box. After cultivating the seeds, Kiwomo is used as a means to transport the seedlings in the seedling box in order to reach the present answer.

In other words, after putting the soil in the box for the midwifery seedling, and then seeding the rice seedlings in the upper part of the soil, the top of the rice seedlings is covered with water, and after that, the seeds are started to shoot by supplying water and temperature moderately, It is then used to cultivate rice plants by planting seedlings in rice paddies

In the past,

Korean Patent Laid-Open Publication No. 10-2012-0014291 Multi-function seedling box (February 17, 2012) has sidewalls at a predetermined height along the outer circumference of a bottom surface on which a plurality of recessed grooves are formed, in the seedling box is stored is possible, unevenness formed on the bottom surface is largely formed the size of the concave-convex groove positioned on the inner side relative to the rectangular support projections on than the size of the concave-convex groove located on the outer side groove is constant curvature surfaces ≪ / RTI > A through hole is formed in the bottom surface at a predetermined interval so as to discharge moisture and to flow air and to be formed at a position different from the concavo-convex groove on the bottom surface; A support protrusion formed of a flexible urethane material having a predetermined resilience to prevent the flow of the overburden and formed continuously along the lower side of the bottom surface is protruded in a rectangular shape; A plurality of reinforcing ribs for reinforcing the strength are provided in the lateral, longitudinal and diagonal directions on the bottom surface of the nutrient extractor; A laminated support groove is formed in the upper part of the side wall so that a plurality of seedlings can be stacked, and a lamination support protrusion is formed at a lower part of the corresponding side wall.

The above-mentioned prior art catnip martens have a problem that the crossing portions of the lateral and longitudinal reinforcing fingers do not overlap or overlap with the crossing portions of the diagonal reinforcing fingers, resulting in a large variation in the strength of the bottom portion.

In addition, the above-described prior art has a problem in that the reinforcing ribs are not uniform in strength because the patterns of the reinforcing ribs in the lateral and longitudinal directions and the reinforcing ribs in the diagonal direction are not the same.

In addition, in the above-mentioned prior art, when the midwife is removed from the moth for transplantation, the end of the moth is formed at a right angle, which makes it easy to adhere the moth soil to the reinforcing flesh.

In addition, the above-mentioned prior art has a problem that the end of the reinforced meat is formed at a right angle, and the user is abrasive at the time of carrying or handling the midwife for the field treatment, sowing, or transplantation.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a honeycomb structure having ribs integrally protruding from a bottom surface of a bottom surface to prevent deformation and warping of a bottom surface, , The attachment of the soil to the rib is relaxed, and the end of the rib is curved so that the user is not abraded during transportation or handling. A conical through hole is formed on the bottom surface to facilitate the separation of the seedlings and the supply of nutrients and water to the seedlings The present invention provides a midwife for a midwife to be used in general use by alternately arranging through-holes of different sizes.

The present invention provides a nursery box for a midwife having a bottom surface, the rib being formed in a continuous pattern on the bottom surface of the bottom surface and integrally protruding therefrom, is formed into a honeycomb shape.

Further, in the present invention, the rib has a diagonal distance of 14.0 to 22.0 mm at an opposing angle, a thickness of 2.5 to 5.0 mm, and a curved line at the end.

In the present invention, the bottom surface is constituted by a plurality of conical through holes having small diameters on the upper surface and upper and lower diameters passing through the lower surface.

Further, in the present invention, the through-hole has a small diameter of 0.7 to 1.5 mm and a large diameter of 1.4 to 3.0 mm.

Further, in the present invention, the through-hole is constructed such that the large-diameter through-hole and the small-diameter through-hole are interdigitated with each other at a predetermined interval.

The present invention has the effect of preventing deformation and distortion of the bottom surface due to the honeycomb-shaped ribs formed on the bottom surface of the bottom surface.

Further, according to the present invention, since there is no portion where the ribs are overlapped, there is an effect that there is no variation in strength reinforcement of the bottom surface.

In addition, the present invention has the effect that the attachment of the soil to the rib is alleviated when the end of the rib is formed of a curved line to separate the midwife for the midwife for the transplantation.

In addition, the present invention has the effect that the end of the rib is formed as a curved line so that the user is not abraded at the time of carrying or handling the midwife for the field work, sowing work, germination work and the like.

In addition, since the through hole is formed in a conical shape, it is difficult for the roots of the seedlings to extend outward from the bottom surface through the small diameter on the upper surface of the bottom surface, so that the seedlings can be easily separated from the seedlings box. , Water and air are supplied smoothly.

In addition, the present invention has an effect that the through-hole can be universally used irrespective of the type of rice seed, the size of the seedling, and the like.

1 is a perspective view of the present invention;
2 is a bottom view of the present invention.
3 is a bottom perspective view of the present invention.
Figure 4: Rib and through-hole state diagram of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

The midwifery box (1) according to the present invention comprises a rectangular bottom plate (10) formed by injection molding with a synthetic resin and having upper and lower through holes (40) formed therein and is integrally formed along the periphery of the bottom plate And has a flange-like sidewall 20 having a protruded constant height, and the overall outer shape is a rectangular parallelepiped having an opened upper side.

In general, the midwifery seedlings are packed with soil at a certain height, then seeded with rice seeds, covered with soil and cultivated for about 10 to 20 days. The midwifery box (1) of the present invention comprises a bottom The upper surface of the groove 10 is formed in an elliptic curvilinear shape and has a curved surface shape with a shallow depth so that a large number of grooves 25 of a pattern shape are formed so that a small amount of water is accumulated in the grooves 25, A proper amount of water is supplied to the seedling and a drainage hole 24 penetrating the outside is formed at a portion where the bottom surface 10 and the side wall 20 meet to discharge the inside water of the midwife The midwifery seedling box prevents the roots of seedlings from rotting by the large amount of water inside the box (1).

 On the other hand, on the upper surface of the bottom surface 10 of the midwifery nursery box 1 for a midwife, there are formed a plurality of strips spaced apart at regular intervals and integrally protruding and formed in a straight line shape having a height of about 0.5 mm and a width of about 0.5 mm The projections 26 are formed and the leaning protrusions 26 are used for carrying the daylily burial nursery box 1 for the purpose of soil work, sowing work, germination work, etc., Thereby preventing the soil deposited within the midwifery nursery box 1 from tilting in any one direction by tilting.

The leaning protrusions 26 are formed in a rectangular shape, a straight line arrangement, a parallel arrangement, or a mixed arrangement thereof, and the middle portion is separated from the bottom portion 10 of the midwifery nursery box 1, And discharged to the outside through the drainage hole 24 so that a large amount of water does not hang inside the midwifery nursery box 1, so that the seedling root does not rot.

The leaning protrusion 26 is projected on the upper surface of the floor to hold the lower part of the upper part of the upper part which is placed in the midwifery nursery box 1 so as to prevent the movement of the midwifery nursery box 1, To minimize the number of seedlings.

The laminated grooves 22 are formed in front and rear portions of the upper side of the right and left side walls 20 in the width direction of the midwifery nursery box 1 so that a plurality of the midwifery nursery boxes 1 can be stacked, And the lamination protrusions 23 are formed on the outer surface of the lower portion of the side wall 20 corresponding to the lamination groove 22 so that the lamination grooves 22 are formed on the upper side The lamination projections 23 of the midwifes are positioned, and the upper and lower midwives are stacked in a stable state.

A knob 21 is cut out from the middle of the middle portion of the midwife of the midwifery for nightwatching 1 to form a groove having a predetermined depth so that the operator grips the knob 21 with his / her hand to facilitate the midwifery nursery box 1 .

The handles can be easily carried or laminated by the operator by inserting the hands into the handles in a state where the tops are stacked or the seedlings are grown in the midwifery nursery box 1 so that the midwifery nursery box 1 can be easily handled So that it can be conveniently performed.

The midwifery nursery box 1 is formed in a continuous pattern on the bottom surface of a rectangular plate-like bottom surface 10 and has a rib 31 integrally protruding in the shape of a honeycomb.

The ribs 31 are formed in a hexagonal shape protruding from the bottom surface of the bottom surface 10 as a unitary shape with a constant width to constitute a unit cell in which the bottom surfaces 10 are separated from each other, And is formed as a honeycomb (honeycomb) 30 as a whole.

The ribs 31 of the unit cells protrude in a hexagonal shape without crossing in the lateral direction, the longitudinal direction, and the diagonal direction and are shared by the unit cells adjacent to each other, A plurality of unit cells 4 partitioned from each other are formed.

 The unit cells are formed in a pattern by a plurality of unit cells formed continuously and the overall shape of the unit cells is formed into the shape of a honeycomb 30 and the rib 31 in the form of a honeycomb 30 is inserted into the midwifery nursery box 1 The areas formed by the ribs 31 are all formed in a constant area.

That is, the ribs formed on the bottom surface 10 of the midwifery nursery box 1 protrude in a circular shape, a pentagonal shape or an octagonal shape, and a plurality of unit cells are continuously formed as a unit cell of a circle, pentagonal or octagonal shape A unit cell not formed in a circular shape is formed between the circular unit cell and the circular unit cell adjacent to the circular unit cell, and a pentagonal unit cell is not formed between the pentagonal unit cell and the adjacent pentagonal unit cell A unit cell is formed, and an octagonal unit cell is formed between the octagonal unit cell and the adjacent octagonal unit cell.

When the unit cells are formed in a pattern of the circular, pentagonal, or octagonal shape, the area of the unit cells formed by the circular, pentagonal, or octagonal shape and the area of the unit cells formed by the circular, Due to the difference, the round, pentagonal or octagonal ribs can not evenly reinforce the strength of the bottom surface of the midwife.

When the ribs formed on the bottom surface 10 of the midwifery box 1 are formed as a triangle or a quadrangle unit cell with a triangle or a quadrilateral shape, The area of each square unit cell becomes the same, and the area of the square unit cell becomes the same, so that the strength of the bottom surface of the midwife is hardened evenly. However, the triangle unit cell prevents deformation and warping of the three- And the tetragonal unit cells prevent the bottom surface from deforming and warping only in two directions. Therefore, there is a problem that the direction of adaptation of deformation and warping of the bottom surface is limited in the triangular unit cell or the tetragonal unit cell.

The rib 31 of the honeycomb 30 of the present invention complements the disadvantages of a unit cell of a circular, triangular, tetragonal, pentagonal, or octagonal shape. The area of all unit cells is the same, 1, the ribs 31 are formed in a hexagonal shape with a small variation in strength reinforcement, so that the ribs 31 are adaptable to deformation and twisting in three directions along the forming direction of the ribs 31 So that deformation and distortion of the floor surface 10 are prevented.

That is, the ribs 31 are uniformly protruded in the vertical direction, the leftwardly inclined direction and the rightwardly inclined direction on the bottom surface of the bottom surface 10 to reinforce the strength of the bottom surface 10 itself, So that the deformation of the floor surface 10, which may occur during the movement and the work process, can be prevented in advance.

The rib 31 of the honeycomb 30 of the present invention has a diagonal distance a of 14.0 to 22.0 mm or a line distance b of 12.5 to 20.8 mm between opposing line segments, .

The ribs 31 are formed in a hexagonal shape. When the centers of the hexagons are linearly connected to each other at a vertex angle, the distance between the vertexes of the ribs 31 and the apex angle of one of the vertices reaches 14.0-22.0 mm .

The diagonal distance a of 14.0 to 22.0 mm is obtained by doubling the center distance of the apex angle of the hexagonal rib 31 to 7.0 to 11.0 mm and the diagonal distance a between 14.0 and 22.0 mm, (b) is about 12.5 to 20.8 mm.

That is, when the diagonal distance a is 14.0 mm, the line segment distance b between the facing line segments is about 12.5 mm, and when the diagonal distance a is 22.0 mm, Is about 20.8 mm.

When the diagonal distance a is 14.0 mm or less, the honeycomb 30 is increased in the number of the honeycombs 30 and the honeycomb 30 is reinforced. The bottom surface 10 can not be reinforced with sufficient strength.

Since ribs or reinforcing ribs of a typical nursery bearer are formed at right angles, when a user touches the rib or the reinforcing railing end when the user uses the nursery girder, there is a case where a scratch is applied to the hand. The edge of the rib 31 is chamfered so that the attachment of the soil to the rib 31 is relaxed when the midwifery box 1 is removed from the nursery for transplantation so that the end of the rib 31 is curved do.

The rib 31 has a rib thickness c of 2.5 to 5.0 mm or a height of 0.7 to 2.0 mm so that the strength of the bottom surface 10 is assured and when the rib thickness c is 2.5 mm or less, The sagging of the bottom surface 10 may occur because the thickness c is thin and the sagging of the bottom surface 10 of the bottom surface 10 does not occur when the rib thickness c is 5.0 mm or more, .

When the rib (31) has a rib height (d) of 0.7 mm or less at the time of supplying and managing water or nutrients by placing the above-mentioned midwife (1) on the seedlings, the strength of the bottom surface When the meaning of reinforcement is small and the rib height d is 2.0 mm or more, the movement of water formed between the bottom surface of the bottom surface 10 and the seedling solution is small, so that the supply of water or nutrients is not smooth.

That is, when the lower portion of the side wall 20 of the day-old pickling and nursery box 1 protrudes 2.5 mm downward from the bottom surface of the bottom surface 10 and the rib height d is 2.0 mm or more, The distance between the bottom surface of the side wall 20 and the bottom of the side wall 20 is less than 0.5 mm, so that the movement of the water is not smooth, and nutrients are not supplied to the seedlings.

The bottom surface 10 is formed with a plurality of through holes 40 through which the through holes 40 are formed so that the upper and lower diameters 41 and 42 have a small diameter 41 and a large diameter 42, A plurality of conical through holes 40 are formed in the bottom surface of the bottom surface 10 with a small diameter 41 on the upper surface of the base 10 so as to pass through the large diameter 42 upward and downward.

 The through hole 40 is formed in a conical shape so that it is difficult for the roots of the seedlings to extend out of the bottom surface 10 through the small diameter 41 on the top surface of the bottom surface 10 to separate the seedlings from the midwifery seedlings box 1 Nutrients, water and air are smoothly supplied through the large diameter 42 of the bottom surface of the bottom surface 10.

The reason for constructing the through-hole 40 in a conical shape is that the nutrients, water, and air are supplied smoothly to the trestle through the large diameter 42 from the soil surface of the seedlings, 41 to prevent the roots of the seedlings from being exposed to the outside of the bottom surface 10 through the cones of the midwifery nursery box 1.

In order to secure the supply of nutrients, water and air from the chitosan surface of the seedlings and to prevent the roots of the seedlings from being exposed to the outside of the bottom surface 10 of the midwifery box 1, ) Has a small diameter of 0.7 to 1.5 mm and a diameter of 1.4 to 3.0 mm.

When the small diameter of the through-hole 40 is 0.7 mm or less, roots of the seedlings are prevented from growing outside the bottom surface 10 of the midwifery nursery box 1, but the roots of the seedlings of a suitable amount are grown through the through- If the small diameter of the through hole 40 is 1.5 mm or more, the roots of the seedlings will grow outside the bottom surface 10 of the midwifery nursery box 1, The diameter of the through-hole 40 is 1.4 mm or less, the supply of water or nutrients is not smooth, and when the diameter of the through-hole 40 is 3.0 mm or more The supply of water or nutrients is smooth, but the surface soil of the seedlings is invaded into the through-hole 40.

The conical through hole 40 passing through the bottom surface 10 may be configured for each unit cell of the honeycomb 30 and the unit cells of the honeycomb 30 formed with the through hole 40 may be divided into one or two crossing units Cells can also be configured.

That is, the through-holes 40 are configured for each unit cell of the honeycomb 30 or formed for each crossing unit cell in accordance with the size of seedlings in order to nurture the seedlings in the midwifery nursery box 1.

The through-holes 40 are formed such that the large-diameter through-holes and the small-diameter through-holes are interdigitated with each other at regular intervals, that is, the through-holes 40 adjacent to each other are disposed with conical through-holes of different sizes.

That is, the through-holes 40 are formed so that the sizes of the through holes 40 adjacent to each other within the range of the small diameter 41 of 0.7 to 1.5 mm and the diameter 42 of 1.4 to 3.0 mm are different from each other .

For example, if one of the through holes 40 is formed to have a small diameter 41 of 0.7 mm and the large diameter 42 is formed to have a diameter of 1.4 mm, the through hole 40 adjacent thereto may have a small diameter 41, And the diameter of the through hole 40 may be a combination of the unit cells of the honeycomb 30 and the honeycomb 30, Can be formed in a unit cell that crosses one unit cell.

The through-holes 40 are formed in such a manner that the large-diameter through-holes and the small- It is possible to perform the function of the universal midwifery seedling box 1 irrespective of the kind of rice seed to be sown and the size of the seedling to grow, that is, the seedling seedling.

According to the present invention thus configured, deformation and distortion of the bottom surface 10 are prevented, there is no variation in the strength reinforcement of the bottom surface 10, the attachment of the soil to the ribs 31 is relieved, The seedlings can be easily separated from the midwifery nursery box 1, nutrients, water and air can be smoothly supplied, and the product can be used for general purposes.

Although the present invention has been described in detail with reference to the specific embodiments thereof, various changes and modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

1: Midwifes Seedling box 10: Floor surface
20: side wall 21: handle
22: Lamination groove 23: Lamination projection
24: drainage hole 25: groove
26: anti-tip projection 30: honeycomb
31: rib 40: through hole
41: small diameter 42: large diameter
a: diagonal distance b: line segment distance
c: rib thickness d: rib height

Claims (5)

In a midwife box for midwifery with a bottom surface,
Wherein the bottom surface is formed in a continuous pattern on the bottom surface and has a rib protruding integrally and having a honeycomb shape and a plurality of conical through holes each having a small diameter and a large diameter penetrating the bottom surface of the bottom surface, Box.
The method according to claim 1,
Wherein the rib has a diagonal distance of 14.0 to 22.0 mm at an opposing angle and a thickness of 2.5 to 5.0 mm and has a curved end.
delete 3. The method of claim 2,
Wherein the through-hole has a small diameter of 0.7 to 1.5 mm and a large diameter of 1.4 to 3.0 mm.
5. The method of claim 4,
Wherein the through-hole is configured such that the large-diameter through-hole and the small-diameter through-hole are interdigitated with each other at a predetermined interval.

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