CN110476656A - Seedling-growing container and preparation method thereof - Google Patents

Abstract

The present invention relates to a kind of seedling-growing containers and preparation method thereof, seedling-growing container of the invention includes the basin body for the cultivation chamber that there is top opening to be arranged, which is prepared from the following raw materials in parts by weight: 40~60 parts of maize cob meal, 20~30 parts of rice bran, 10~15 parts of sawdust, 5~10 parts of kuh-seng, 0.02~0.06 part of ammonium nitrate, 0.005~0.01 part of potassium dihydrogen phosphate, 0.01~0.02 part of magnesium sulfate, 0.012~0.016 part of calcium chloride, 0.001~0.003 part of boric acid, 0.001~0.0018 part of copper sulphate, 0.002~0.004 part of zinc sulfate.Seedling-growing container of the present invention may make the seedling-growing container to have preferable water absorbing and retaining properties by using corncob, so as to provide growth required moisture for sapling for a long time；And the matrine being rich in kuh-seng is because having the effect of heat-clearing and damp-drying drug, desinsection, so as to effectively inhibit the generation of sapling root rot；In addition, ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate, calcium chloride, boric acid, copper sulphate and zinc sulfate can provide necessary microelement again for the growth of sapling, so that this seedling-growing container can effectively improve the survival rate of sapling.

Description

Seedling-growing container and preparation method thereof

Technical field

The present invention relates to stock growing engineering device technique field, in particular to a kind of seedling-growing container, meanwhile, the invention further relates to one The production method of the kind seedling-growing container.

Background technique

The point of penetration of aid-the-poor project is essentially consisted in Poor Mountainous Area kind tree now, and when planting tree on the hillside in mountain area, lead to After often having dug tree well on hillside, by sapling plantation in tree well, and a certain amount of water is poured into tree well.But poverty-stricken area one As be in mountain area, not only annual precipitation is less, daily evaporation amount is big, and because hillside topography is also not easy to store moisture, so as to cause cultivation , root rot incidence height low in the sapling survival rate on hillside is trained, not only expends a large amount of manpower and material resources, while being also difficult to reach anti- The purpose that wind fixes the sand, shakes off poverty and sets out on the road to prosperity and improves the ecological environment.

Summary of the invention

In view of this, the present invention is directed to propose a kind of seedling-growing container, with preferable water-absorbing-retaining performance, and can effectively press down The generation of sapling root rot processed, so as to effectively improve the survival rate of sapling.

In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:

A kind of seedling-growing container, the basin body including the cultivation chamber (201) being arranged with top opening, the basin body is by following weight The raw material of number is made: 40~60 parts of maize cob meal, 20~30 parts of rice bran, 10~15 parts of sawdust, 5~10 parts of kuh-seng, ammonium nitrate 0.02~0.06 part, 0.005~0.01 part of potassium dihydrogen phosphate, 0.01~0.02 part of magnesium sulfate, calcium chloride 0.012~0.016 Part, 0.001~0.003 part of boric acid, 0.001~0.0018 part of copper sulphate, 0.002~0.004 part of zinc sulfate.

Further, 45 parts of maize cob meal, 24 parts of rice bran, 14 parts of sawdust, 8 parts of kuh-seng, 0.03 part of ammonium nitrate, di(2-ethylhexyl)phosphate 0.006 part of hydrogen potassium, 0.018 part of magnesium sulfate, 0.014 part of calcium chloride, 0.002 part of boric acid, 0.0013 part of copper sulphate, zinc sulfate 0.003 part.

Further, the basin body includes outer basin, is placed in the outer basin and top is placed at the top of the outer basin Interior basin, the cultivation chamber are formed on the interior basin, are enclosed between the interior basin and the outer basin and have been configured to water chamber, and in The bottom of the interior basin, which is equipped with, constitutes several capillaries that the water flow in the water chamber is conveyed to the cultivation chamber.

Further, in the top of the interior basin equipped with the baffle constituted to the partial sealing of the opening.

Further, the baffle is that middle part is formed with the annular slab of through-hole, and the middle part of the baffle is to the interior basin Bottom side indent setting.

Further, the baffle is enclosed by circumferentially spaced multiple fanning strips along the interior basin and is configured to, and in It is formed with location hole on each fanning strip, and has in the tip configuration of the interior basin and is arranged in a one-to-one correspondence with each location hole Positioning column.

Further, several water inlet gap along its axially extending setting are formed in the top of the outer basin.

Further, along the direction close to the outer basin top, the width of the water inlet gap is gradually big.

Compared with the existing technology, present invention has the advantage that

Seedling-growing container of the present invention may make the seedling-growing container to have preferable water absorbing and retaining properties by using corncob, So as to provide growth required moisture for sapling for a long time；The structural strength of seedling-growing container can be improved using sawdust, it can be effective Seedling-growing container is prevented to be damaged during transportation；And the matrine being rich in kuh-seng is because having the effect of heat-clearing and damp-drying drug, desinsection, So as to effectively inhibit the generation of sapling root rot；In addition, the starch component in rice bran then has preferable viscosity, not only may be used Convenient for the molding of seedling-growing container, while after seedling-growing container can also be made to be disintegrated under the immersion of moisture, nutrition is provided for the growth of sapling；This Outside, ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate, calcium chloride, boric acid, copper sulphate and zinc sulfate can provide again for the growth of sapling Necessary microelement, so that this seedling-growing container can effectively improve the survival rate of sapling.

Another object of the present invention is to propose a kind of production method of seedling-growing container, which is characterized in that the production method packet Include following steps:

A, raw material is weighed；

B, prepare basin body material: in the water of 100 parts of rice bran addition and 20min is boiled in rolling, and corn is then added into rice bran Ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate part, calcium chloride, boric acid, copper sulphate and sulfuric acid is added in core, sawdust and kuh-seng after letting cool Zinc, and be uniformly mixed, to prepare mixed powder；

C, it prepares basin body: the mixed powder in step b is poured into basin body model, demoulding after reheating is molded, and be made Basin body.

The production method of seedling-growing container of the invention is during making seedling-growing container, without adding any chemical adhesive, It not can cause environmental pollution not only, while being also beneficial to the sustainable development of environment.

Detailed description of the invention

The attached drawing for constituting a part of the invention is used to provide further understanding of the present invention, schematic reality of the invention It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of seedling-growing container described in the embodiment of the present invention one；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the longitudinal sectional view of seedling-growing container described in the embodiment of the present invention one；

Description of symbols:

The outer basin of 1-, 101- water inlet gap；

Basin in 2-, 201- cultivate chamber, 202- positioning column；

3- water chamber；

4- baffle, 401- through-hole, 402- fanning strip；

5- capillary.

Specific embodiment

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Embodiment one

The present embodiment is related to a kind of seedling-growing container comprising the basin body of the cultivation chamber with top opening setting, wherein basin body It is specifically prepared from the following raw materials in parts by weight: 40~60 parts of maize cob meal, 20~30 parts of rice bran, 10~15 parts of sawdust, kuh-seng 5 ~10 parts, 0.02~0.06 part of ammonium nitrate, 0.005~0.01 part of potassium dihydrogen phosphate, 0.01~0.02 part of magnesium sulfate, calcium chloride 0.012~0.016 part, 0.001~0.003 part of boric acid, 0.001~0.0018 part of copper sulphate, zinc sulfate 0.002~0.004 Part.

Wherein, in order to improve using effect, it is preferable that the optimum proportioning of each ingredient of the present embodiment is maize cob meal 45 Part, 24 parts of rice bran, 14 parts of sawdust, 8 parts of kuh-seng, 0.03 part of ammonium nitrate, 0.006 part of potassium dihydrogen phosphate, 0.018 part of magnesium sulfate, chlorine Change 0.014 part of calcium, 0.002 part of boric acid, 0.0013 part of copper sulphate, 0.003 part of zinc sulfate.

The seedling-growing container of the present embodiment may make the seedling-growing container to have preferable water absorbing and retaining properties by using corncob, from And moisture needed for growth being provided for a long time for sapling；The structural strength of this seedling-growing container can be improved using sawdust, it can be effective Seedling-growing container is prevented to be damaged during transportation；And the matrine being rich in kuh-seng is because having the effect of heat-clearing and damp-drying drug, desinsection, So as to effectively inhibit the generation of sapling root rot；In addition, the starch component in rice bran then has preferable viscosity, not only may be used Convenient for the molding of seedling-growing container, while after this seedling-growing container can also be made to be disintegrated under the immersion of moisture, nutrition is provided for the growth of sapling； In addition, ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate, calcium chloride, boric acid, copper sulphate and zinc sulfate can mention for the growth of sapling again For necessary microelement, so that this seedling-growing container can effectively improve the survival rate of sapling, and it can effectively inhibit sapling root-rot The generation of disease.

Specifically, the structure of the seedling-growing container of the present embodiment is as shown in Figure 1 to Figure 3, wherein above-mentioned basin body includes outer basin 1 and the interior basin 2 that is placed in outer basin 1, above-mentioned cultivation chamber 201 be formed on the interior basin 2.And interior basin 2 is placed on outer basin 1 Top, and enclosed between interior basin 2 and outer basin 1 and be configured to water chamber 3.Wherein, as shown in Fig. 1, the outer basin 1 of the present embodiment It is whole in up big and down small inverted round table-like, further, in order to improve the structural strength of outer basin 1, outer basin 1 is close to its bottom At end thereto it is intracardiac it is recessed set, in addition, the whole shelf-stability of outer basin 1 also can be improved in this structure.

In addition, as shown in Figure 2, for effectively storage rainwater, in the top of outer basin 1 be formed with along its axis be extended Water inlet gap 101.And the considerations of for 3 volume angle of water chamber, as shown in fig. 1, the length of the water inlet gap 101 of embodiment Degree is not more than the height of interior basin 2.Further, along the direction close to outer 1 top of basin, the width of each gap 101 of intaking is gradually big, Inflow of the rainwater to water chamber 3 can be so conducive to.In addition, in order to further increase using effect, the water inlet of the present embodiment Gap 101 is that the central angle along the circumferentially spaced multiple of outer basin 1, and between the two water inlet gap 101 at both ends is also sharp Angle.It should be noted that needing when specifically used so that there is outer basin 1 side of water inlet gap 101 to arrange towards hillside, such as This setting may make and enter in water chamber 3 along the catadromous rainwater in hillside via each water inlet gap 101.

The structure of the interior basin 2 of the present embodiment is as shown in Figure 3 comprising the main body of truncated cone-shaped, and it is set to main body top It simultaneously takes along the extend radially outwardly annular of arrangement of main body and sets plate in portion.And stabilization is set in order to improve interior basin 2 in taking in outer basin 1 Property, the flange being turned over downwards is formed in taking the edge for setting plate.In addition, being provided at circumferentially spaced in taking to set to be configured on plate along it Several positioning columns 202, to position following baffles 4.In addition, to realize the conveying in the inside basin 2 of water flow in water chamber 3, The capillary 5 of several connection cultivation chambers 201 and water chamber 3 is equipped in the bottom of main body.

In addition to this, it is the moisture evaporation effectivelying prevent in cultivation chamber 201, is equipped with to be equipped in the top of interior basin 2 and set On plate, to constitute the baffle 4 to the partial sealing of opening.Specifically, as shown in Figure 2, the baffle 4 of the present embodiment is annular Plate is formed with the through-hole 401 passed through for the stem of sapling in the middle part of annular slab, so set, not influencing the life of sapling not only It is long, while the drain evaporation of moisture in water chamber 3 can also be effectively prevent.In addition, setting taking on plate in order to improve baffle 4 in taking and setting Stability, in being formed with the positioning for being arranged in a one-to-one correspondence with above-mentioned each positioning column 202, passing through for each positioning column 202 on baffle 4 Hole.

Still as shown in Fig. 3, in the present embodiment, to make full use of rainwater, the side of inside 2 bottom of basin in the middle part of baffle 4 Indent setting can so flow into cultivation chamber 201 convenient for rainwater via baffle 4.In addition, for the benefit of growth of sapling, by Fig. 2 Shown, the baffle 4 of the present embodiment, which is specifically enclosed by circumferentially spaced multiple fanning strips 402 along main body, to be configured to, above-mentioned fixed Position hole is formed on the fanning strip 402.So set, when the growth of the part trunk of sapling is too fast, it can be by baffle 4 by positioning It is ejected on column 202, the growth of sapling trunk is influenced when fanning strip 402 being thus prevented not to be disintegrated.

Based on the above overall structure, the seedling-growing container of the present embodiment all has preferable water absorbing and retaining properties from ingredient and structure Can, while prevented also from the generation of sapling root rot, and can provide growth required microelement for sapling, to be conducive to tree The growth of seedling, and the survival rate of sapling can be improved.

Embodiment two

Embodiment 2.1

The present embodiment is related to a kind of production method of seedling-growing container, the production method the following steps are included:

A, 45 parts of maize cob meal, 24 parts of rice bran, 14 parts of sawdust, 8 parts of kuh-seng, 0.03 part of ammonium nitrate, potassium dihydrogen phosphate are weighed 0.006 part, 0.018 part of magnesium sulfate, 0.014 part of calcium chloride, 0.002 part of boric acid, 0.0013 part of copper sulphate, 0.003 part of zinc sulfate.

B, rice bran is added in 100 parts of water and is rolled and boil 20min, corncob, sawdust and hardship are then added into rice bran Ginseng is added ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate part, calcium chloride, boric acid, copper sulphate and zinc sulfate, and is stirred after letting cool Uniformly, to prepare mixed powder；

C, the mixed powder in step b is poured into basin body model, demoulding after reheating is molded, and basin body is made.

Finally, choosing seedling-growing container made from 50 step c, and the plantation growth consistent pine tree of situation in each seedling-growing container Seedling, and after being grown 30 days under identical growing environment, check that the survival rate of this batch of sapling is 98%, the incidence of root rot is 2%.

Embodiment 2.2

The present embodiment is related to a kind of production method of seedling-growing container, the production method the following steps are included:

A, 50 parts of maize cob meal, 26 parts of rice bran, 12 parts of sawdust, 7 parts of kuh-seng, 0.03 part of ammonium nitrate, potassium dihydrogen phosphate are weighed 0.006 part, 0.018 part of magnesium sulfate, 0.014 part of calcium chloride, 0.002 part of boric acid, 0.0013 part of copper sulphate, 0.003 part of zinc sulfate.

B, rice bran is added in 100 parts of water and is rolled and boil 20min, corncob, sawdust and hardship are then added into rice bran Ginseng is added ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate part, calcium chloride, boric acid, copper sulphate and zinc sulfate, and is stirred after letting cool Uniformly, to prepare mixed powder；

C, the mixed powder in step b is poured into basin body model, demoulding after reheating is molded, and basin body is made.

Finally, choosing seedling-growing container made from 50 step c, and state is grown in plantation and embodiment 2.1 in each seedling-growing container The consistent pine tree seedling of gesture, and after being grown 30 days under identical growing environment, check that the survival rate of this batch of sapling is 97%, root-rot The incidence of disease is 2%.

Embodiment 2.3

The present embodiment is related to a kind of production method of seedling-growing container, the production method the following steps are included:

A, 55 parts of maize cob meal, 30 parts of rice bran, 13 parts of sawdust, 8 parts of kuh-seng, 0.04 part of ammonium nitrate, potassium dihydrogen phosphate are weighed 0.007 part, 0.019 part of magnesium sulfate, 0.016 part of calcium chloride, 0.0024 part of boric acid, 0.0016 part of copper sulphate, zinc sulfate 0.0035 Part.

B, rice bran is added in 100 parts of water and is rolled and boil 20min, corncob, sawdust and hardship are then added into rice bran Ginseng is added ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate part, calcium chloride, boric acid, copper sulphate and zinc sulfate, and is stirred after letting cool Uniformly, to prepare mixed powder；

C, the mixed powder in step b is poured into basin body model, demoulding after reheating is molded, and basin body is made.

Finally, choosing seedling-growing container made from 50 step c, and state is grown in plantation and embodiment 2.1 in each seedling-growing container The consistent pine tree seedling of gesture, and after being grown 30 days under identical growing environment, check that the survival rate of this batch of sapling is 95%, root-rot The incidence of disease is 4%.

Comparative example

50 seedling-growing containers in the prior art are chosen, and plantation and growth situation one in embodiment 2.1 into each seedling-growing container The pine tree seedling of cause, and after being grown 30 days under identical growing environment, check that the survival rate of this batch of sapling is 84%, root rot Incidence is 17%.

In conclusion starting seedlings by using the seedling-growing container of the present embodiment production, surviving for sapling can be effectively improved Rate, and can effectively inhibit the generation of root rot.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of seedling-growing container, the basin body including the cultivation chamber (201) being arranged with top opening, which is characterized in that the basin body It is prepared from the following raw materials in parts by weight: 40~60 parts of maize cob meal, 20~30 parts of rice bran, 10~15 parts of sawdust, kuh-seng 5~10 Part, 0.02~0.06 part of ammonium nitrate, 0.005~0.01 part of potassium dihydrogen phosphate, 0.01~0.02 part of magnesium sulfate, calcium chloride 0.012 ~0.016 part, 0.001~0.003 part of boric acid, 0.001~0.0018 part of copper sulphate, 0.002~0.004 part of zinc sulfate.

2. seedling-growing container according to claim 1, it is characterised in that: 45 parts of maize cob meal, 24 parts of rice bran, 14 parts of sawdust, hardship Ginseng 8 parts, 0.03 part of ammonium nitrate, 0.006 part of potassium dihydrogen phosphate, 0.018 part of magnesium sulfate, 0.014 part of calcium chloride, 0.002 part of boric acid, 0.0013 part of copper sulphate, 0.003 part of zinc sulfate.

3. seedling-growing container according to claim 1, it is characterised in that: the basin body includes outer basin (1), is placed in the outer basin (1) in and top is placed on the interior basin (2) at the top of the outer basin (1), and the cultivation chamber (201) is formed in the interior basin (2) On, it encloses and has been configured to water chamber (5) between the interior basin (2) and the outer basin (1), and set in the bottom of the interior basin (2) Have and constitutes several capillaries (6) that the water flow in the water chamber (5) is conveyed to cultivation chamber (201).

4. seedling-growing container according to claim 3, it is characterised in that: in the top of the interior basin (2) equipped with composition to institute State the baffle (4) of the partial sealing of opening.

5. seedling-growing container according to claim 4, it is characterised in that: the baffle (4) is that middle part is formed with through-hole (401) Annular slab, and the middle part of the baffle is arranged to the side indent of interior basin (2) bottom.

6. seedling-growing container according to claim 5, it is characterised in that: the baffle (4) is by between the circumferential direction of the interior basin (2) It encloses and is configured to every multiple fanning strips (402) of setting, and in being formed with location hole on each fanning strip (402), and in described The tip configuration of interior basin (2) has the positioning column (202) being arranged in a one-to-one correspondence with each location hole.

7. seedling-growing container according to any one of claim 3 to 6, it is characterised in that: formed in the top of the outer basin (1) There is the water inlet gap (101) along its axially extending setting.

8. seedling-growing container according to claim 7, it is characterised in that: along close to outer basin (1) top direction, it is described into The width of water gap (101) is gradually big.

9. a kind of production method of seedling-growing container, which is characterized in that the production method the following steps are included:

A, raw material is weighed；

B, prepare basin body material: in the water of 100 parts of rice bran addition and 20min is boiled in rolling, and corncob, wood are then added into rice bran Bits and kuh-seng are added ammonium nitrate, potassium dihydrogen phosphate, magnesium sulfate part, calcium chloride, boric acid, copper sulphate and zinc sulfate, and stir after letting cool Mix it is uniformly mixed, to prepare mixed powder；

C, it prepares basin body: the mixed powder in step b is poured into basin body model, demoulding after reheating is molded, and basin body is made.