CN215736054U - Horticulture is planted and is used seedling raising box with seedling stem support function - Google Patents

Abstract

The utility model relates to the technical field of plant cultivation, in particular to a seedling raising box with a seedling stem supporting function for gardening planting, which comprises a cultivation box body, seedling raising blocks, a seedling raising plate and a supporting assembly.

Description

Horticulture is planted and is used seedling raising box with seedling stem support function

Technical Field

The utility model relates to the technical field of plant cultivation, in particular to a seedling raising box with a seedling stem supporting function for gardening planting.

Background

Grow seedlings is the part of plant cultivation process, it mainly is the meaning of cultivating the seedling to grow seedlings, along with mechanical equipment's rapid development, among the prior art, the operation is cultivated to the seedling raising box that often utilizes constant temperature and humidity, often be provided with a plurality of culture tanks on cultivating the dish, the soil that is filled with the adaptation in the culture tank is in order to plant, and put cultivating the dish in the culture tank, but the function that does not have the support in the current culture tank, the plant is comparatively fragile in the growth stage, the rhizome easily leads to the rhizome to bend because of personnel's operation, the survival rate of growing seedlings that leads to the plant is lower.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a seedling box with a seedling stem supporting function for gardening planting is provided.

In order to achieve the above purposes, the technical scheme adopted by the utility model is as follows:

a horticulture is planted and is used seedling raising box with seedling stem support function includes:

the cultivation box comprises a box body and a box cover, and the box body is used for placing plant seedlings or seeds into the box body for cultivation; the box cover is positioned at the top of the box body and is used for forming a greenhouse in the cultivation box and promoting the growth of plant seedlings or seeds;

the incubator further comprises:

the supporting component is positioned inside the box cover and is used for supporting stems and leaves of plant seedlings so as to prevent the roots and the stems from being bent;

the seedling raising plate is positioned at the bottom inside the box body and used for storing nutrient solution required by plants in a growth stage;

the seedling piece, the seedling piece has a plurality of, a plurality of the seedling piece all is located seedling raising plate, a plurality of the seedling piece is water absorbing material and makes, a plurality of the seedling piece all is used for supporting the growth of plant stem leaf, can absorb the interior nutrient solution of seedling raising plate simultaneously.

Preferably, state the seedling piece and be degradable absorbent and have elastic material and make, the seedling piece is trapezoidal cubic, the bottom of seedling piece is equipped with joint piece and seedling board and matches each other, the inside cavity that is equipped with in top of seedling piece, the top of cavity is equipped with a cross opening, the bottom of seedling piece is equipped with a plurality of root of gas holes, the bottom of the four sides lateral wall of seedling piece all is equipped with a plurality of bleeder vents.

Preferably, the seedling raising plate is a square plate, a plurality of liquid storage tanks which are arranged in an equidistant rectangular array are arranged on the seedling raising plate, the liquid storage tanks are matched with the clamping blocks at the bottoms of the seedling raising blocks, a plurality of first flow guide grooves are arranged in the width direction and the length direction of the seedling raising plate and matched with the box body, and the first flow guide grooves penetrate through all the liquid storage tanks.

Preferably, the supporting component includes threaded rod, supporting network, guide bar and knob, the threaded rod is vertical state and runs through the top central authorities through the case lid, the knob is located the top of threaded rod and rather than fixed connection, the guide bar has a plurality of, and is a plurality of the guide bar all is the side that vertical state is located the threaded rod, and is a plurality of the guide bar all is parallel to each other with the threaded rod, the supporting network is the horizontality cover and locates on threaded rod and all guide bars, the middle part of supporting network is equipped with the thread bush, thread bush and threaded rod screw-thread fit, the netted material of supporting network for having certain elasticity, the mesh position of supporting network matches each other with the reservoir position of the board of growing seedlings.

Preferably, the box body is of a square structure, a water guide groove is formed in the top of the box body, a second guide groove matched with the first guide groove of the seedling raising plate is formed in the inner wall of the box body, and the top end of the second guide groove penetrates through the inner side of the water guide groove.

Preferably, for square structure, the top of case lid be equipped with the observation window, be equipped with on the top inner wall of case lid and cultivate the lamp, the ascending both sides of case lid width direction are equipped with the bleeder vent.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model provides a method for cultivating plants, which comprises the steps of putting seedlings or seeds of plants into a cross-shaped opening at the top of a seedling cultivating block, enabling the seedlings or seeds to fall into a cavity at the top of the seedling cultivating block through the cross-shaped opening, enabling the cross-shaped opening to play a supporting role for the plants through the growth of the seedlings of the plants due to the fact that the seedling cultivating block is made of elastic materials, enabling a gas root hole at the bottom of the seedling cultivating block to be used for the growth of a root system of the seedlings, enabling the seedling cultivating block with the planted seedlings or seeds to be put into a seedling cultivating plate, absorbing nutrient solution on the seedling cultivating plate through the water absorption performance of the seedling cultivating block to provide nutrients required by the growth of the seedlings and the seeds, enabling a gas vent hole on the side wall of the seedling cultivating block to be used for preventing the seedling cultivating block from absorbing too much water to cause the root system of the plants to be incapable of breathing and cause a root hole, enabling the gas root system hole to be used for the root system to grow out through growth, and having a part of the function of supporting the root system, the root system is located in the seedling raising block and plays a role in protecting the root system, the root system is prevented from being entangled with other plant root systems, the survival rate of seedlings is reduced, along with the growth of plants, the stem leaves of the seedlings are supported by the supporting component, a stable growth environment is provided for the plants through a greenhouse formed in the incubator, after the cultivation is finished, the seedling raising plate is taken out by opening the box cover, the cultivation blocks can be directly buried in soil for planting, the cultivation blocks can be decomposed in the soil through self-degradable performance, the survival rate of seedling transplantation is improved, and the technical problem that the plant seedlings absorb nutrient solution is solved;

2. according to the utility model, the seedling raising block is placed in the liquid storage tanks, the nutrient solution is poured into one of the diversion grooves, the nutrient solution is infused into all the liquid storage tanks through the diversion grooves in the length direction and the width direction of the seedling raising plate, the nutrient solution is absorbed into the cavity by the seedling raising block, the nutrient required by the growth of plant seedlings or seeds can be provided through the water absorption performance of the seedling raising block, and the technical problem of nutrient solution storage and irrigation is solved;

3. according to the utility model, after the plant seedlings grow, the stems of the plant seedlings penetrate through the meshes of the supporting net, the leaves of the plant seedlings fall onto the supporting net along with growth, the weight of the leaves is reduced through the supporting net, so that the stems of the plant seedlings are supported, meanwhile, the meshes can also be used for supporting the stems of the plant, the initial position of the supporting net is positioned at the top of the seedling raising block, along with the growth of the plant, through rotating the knob, the rotation of the knob drives the rotation of the threaded rod fixedly connected with the knob, the rotation of the threaded rod drives the threaded sleeve matched with the threaded rod to move, and the movement of the threaded sleeve drives the supporting net to move along the directions of all guide rods, so that the growth of the stems and leaves of the plant can be matched along with the growth of the plant, and the technical problem of supporting the stems and leaves of the plant is solved.

Drawings

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

FIG. 3 is a perspective view of the general depression angle of the present invention;

FIG. 4 is a schematic perspective view of a seedling block and a seedling plate according to the present invention;

FIG. 5 is a partial perspective view of a first seedling block of the present invention;

FIG. 6 is a schematic sectional view of a seedling block of the present invention;

FIG. 7 is a second partial perspective view of a nursery block according to the present invention;

FIG. 8 is a first perspective view of the cover of the present invention;

FIG. 9 is a second perspective view of the cover of the present invention;

FIG. 10 is a perspective view of a portion of the support assembly of the present invention;

FIG. 11 is an overall perspective view of the case of the present invention;

FIG. 12 is an overall perspective view of the seedling raising plate of the present invention;

FIG. 13 is a perspective view of a support screen of the present invention;

the reference numbers in the figures are:

1-an incubator; 1 a-a box body; 1a 1-flume; 1a 2-diversion trench II; 1 b-a box cover; 1b1 — observation window; 1b 2-air permeable grate; 1b 3-cultivation light;

2-seedling raising blocks; 2 a-a clamping block; 2 b-a cavity; 2 c-a cross opening; 2 d-air root holes; 2 e-air holes;

3-seedling raising plate; 3 a-a liquid storage tank; 3 b-a first diversion trench;

4-a support assembly; 4 a-a threaded rod; 4 b-a support net; 4b 1-thread bush; 4 c-a guide bar; 4 d-knob.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problems of plant cultivation and seedling stem support, as shown in fig. 1-3, the following technical solutions are provided:

a horticulture is planted and is used seedling raising box with seedling stem support function includes:

the cultivation box 1 comprises a box body 1a and a box cover 1b, wherein the box body 1a is used for placing plant seedlings or seeds into the box body 1a for cultivation; the box cover 1b is positioned at the top of the box body 1a, and the box cover 1b is used for forming a greenhouse in the cultivation box 1 and promoting the growth of plant seedlings or seeds;

the incubator 1 further comprises:

a support member 4, the support member 4 being located inside the box cover 1b, the support member 4 being used for supporting the stem and the leaves of the young plant to prevent bending of the rhizome;

the seedling raising plate 3 is positioned at the bottom of the interior of the box body 1a, and the seedling raising plate 3 is used for storing nutrient solution required by plants in a growth stage;

the seedling raising block 2, the seedling raising block 2 has a plurality of, a plurality of the seedling raising block 2 all is located seedling raising plate 3, a plurality of the seedling raising block 2 is made of water-absorbing material, a plurality of the seedling raising block 2 all is used for supporting the growth of plant stems and leaves, and can absorb nutrient solution in the seedling raising plate 3 simultaneously.

Put into seedling raising plate 3 with a plurality of seedling raising piece 2 at first, put into the bottom of box 1a with seedling raising plate 3 again, place case lid 1b in the top of box 1a, make 1 internal formation of incubator greenhouse, promote the growth of plant seedling or seed, seedling raising plate 3 stores the required nutrient solution of plant growth in the stage of growing seedlings, seedling raising piece 2 provides plant seedling or the required nutrient of seed growth through absorbing the nutrient solution, along with the growth of plant, stem and the blade of supporting component 4 support plant seedling on through case lid 1b, in order to prevent bending of rhizome.

In order to solve the technical problem of the nutrient solution absorption of the plant seedlings, as shown in fig. 4-7, the following technical scheme is provided:

the seedling raising block 2 is degradable, absorbs water and has elastic material to make, the seedling raising block 2 is trapezoidal cubic, the bottom of seedling raising block 2 is equipped with joint piece 2a and seedling raising plate 3 and matches each other, the inside cavity 2b that is equipped with in top of seedling raising block 2, the top of cavity 2b is equipped with a cross opening 2c, the bottom of seedling raising block 2 is equipped with a plurality of root of gas holes 2d, the bottom of the four sides lateral wall of seedling raising block 2 all is equipped with a plurality of bleeder vents 2 e.

Firstly, plant seedlings or seeds are put into a cross opening 2c positioned at the top of a seedling raising block 2, the plant seedlings or seeds fall into a cavity 2b positioned at the top of the seedling raising block 2 through the cross opening 2c, the seedling raising block 2 is made of elastic materials, the cross opening 2c can support the plants through the growth of the plant seedlings, an air root hole 2d at the bottom of the seedling raising block 2 is used for the growth of a root system of the seedlings, the planted plant seedlings or the planted seeds are put into a seedling raising plate 3, nutrient solution positioned on the seedling raising plate 3 is absorbed through the water absorption performance of the seedling raising block 2 to provide nutrients required by the growth of the plant seedlings and the seeds, air holes 2e on the side wall of the seedling raising block 2 are used for preventing the seedling raising block 2 from absorbing too much water to cause the incapability of the root system of the plants to breathe and cause root rot, the air holes 2e are used for air circulation, and the air root hole 2d is used for the root system to grow out through holes, there is some effect that supports the root system, the root system has also played the effect of protection root system simultaneously in being located seedling raising piece 2, prevent to entangle with other plant roots, reduce the survival rate of seedling, along with the growth of plant, the stem leaf of seedling is supported to rethread supporting component 4, the greenhouse that forms through incubator 1 provides the stable growing environment of plant, after cultivating the completion, through opening case lid 1b, take out the board of growing seedlings, directly can directly bury the soil planting with the culture block, the culture block passes through self degradable performance, make the culture block can be decomposed in soil, thereby improve seedling transplanting's survival rate.

In order to solve the technical problem of storing and irrigating nutrient solution, as shown in fig. 4 and 12, the following technical solutions are provided:

seedling growing plate 3 is a square board, be equipped with a plurality of reservoir 3a that are equidistance rectangle array and arrange on the seedling growing plate, reservoir 3a matches each other with joint piece 2a of 2 bottoms of seedling growing block, all be equipped with a plurality of guiding gutters 3b on 3 width direction of seedling growing plate and the length direction, guiding gutter 3b matches each other with box 1a, and is a plurality of guiding gutter all runs through all reservoir 3 a.

The seedling raising block 2 is placed in the liquid storage tanks 3a, nutrient solution is poured into one of the flow guide tanks, the nutrient solution is infused into all the liquid storage tanks 3a through the flow guide tanks 3b in the length direction and the width direction of the seedling raising plate 3, the seedling raising block 2 absorbs the nutrient solution into the cavity 2b, and nutrients required by growth of plant seedlings or seeds can be provided through the water absorption performance of the seedling raising block 2.

In order to solve the technical problem of supporting the stems and leaves of the plant seedlings, as shown in figures 8-13, the following technical scheme is provided:

the supporting component 4 comprises a threaded rod 4a, a supporting net 4b, a guide rod 4c and a knob 4d, the threaded rod 4a vertically penetrates through the center of the top of the box cover 1b, the knob 4d is positioned at the top of the threaded rod 4a and is fixedly connected with the threaded rod, the guide rods 4c are provided with a plurality of guide rods 4c, the guide rods 4c are vertically positioned at the side of the threaded rod 4a, the guide rods 4c are parallel to the threaded rod 4a, the supporting net 4b is horizontally sleeved on the threaded rod 4a and all the guide rods 4c, the middle part of the supporting net 4b is provided with a threaded sleeve 4b1, the thread sleeve 4b1 is in thread fit with the threaded rod 4a, the supporting net 4b is made of net material with certain elasticity, the mesh position of the supporting net 4b is matched with the position of the liquid storage tank 3a of the seedling raising plate 3.

After young plant growth, young plant's stem portion passes the mesh of support network 4b, young plant's leaf falls to support network 4b along with growing on, lighten the weight of leaf through support network 4b, thereby support the stem portion of seedling, the mesh also can be used for supporting the stem portion of plant simultaneously, support network 4 b's initial position is located the top of piece 2 of growing seedlings, along with the growth of plant, through rotatory knob 4d, the rotation of knob 4d has driven the rotation rather than fixed connection's threaded rod 4a, the rotation of threaded rod 4a has driven the removal rather than screw-thread fit thread bush 4b1, the removal of thread bush 4b1 has driven support network 4b and has removed along the direction of all guide bars 4c, thereby can match the growth of the stem leaf of plant along with the growth of plant.

In order to solve the technical problem of the mechanism of the box body 1a, as shown in fig. 11, the following technical scheme is provided:

the box body 1a is of a square structure, the top of the box body 1a is provided with a water guide groove 1a1, the inner wall of the box body 1a is provided with a second guide groove 1a2 matched with the first guide groove 3b of the seedling raising plate, and the top end of the second guide groove 1a2 penetrates through the inner side of the water guide groove 1a 1.

Nutrient solution is poured into the water guide groove 1a1 of the box body 1a, the nutrient solution in the water guide groove 1a1 slides from the second diversion groove 1a2 into the first diversion groove 3b of the seedling raising plate, the nutrient solution is conveyed into each liquid storage groove 3a through the first diversion groove 3b, and the nutrient solution is absorbed through the water absorption performance of the seedling raising block 2, so that the nutrient solution can be supplemented for plant seedlings or seeds in the box body 1a without opening the box cover 1b, and the environmental temperature in the cultivation box 1 is kept.

In order to solve the technical problem of the mechanism of the cover 1b, as shown in fig. 8-13, the following technical solutions are provided:

case lid 1b is square structure, the top of case lid 1b be equipped with observation window 1b1, be equipped with on the top inner wall of case lid 1b and cultivate lamp 1b3, both sides on the case lid 1b width direction are equipped with ventilative grid 1b 2.

The growth of the young plants in the incubator 1 can be observed through the observation window 1b1 so that the supporting members 4 can be adjusted and the nutrient solution required for supplementing the plants can be supplemented, the temperature and humidity in the incubator 1 can be controlled through the ventilation grilles 1b2 at both sides of the cover 1b, and the cultivation lamp 1b3 at the top of the cover 1b is used to provide ultraviolet rays required for the growth of the plants so that the plants can be uninterruptedly cultivated for twenty-four hours, thereby providing the cultivation efficiency.

The working principle of the utility model is as follows:

firstly, plant seedlings or seeds are put into a cross opening 2c positioned at the top of a seedling raising block 2, the plant seedlings or seeds fall into a cavity 2b positioned at the top of the seedling raising block 2 through the cross opening 2c, the seedling raising block 2 is made of elastic materials, the cross opening 2c can support the plants through the growth of the plant seedlings, an air root hole 2d at the bottom of the seedling raising block 2 is used for the growth of a root system of the seedlings, the planted plant seedlings or the planted seeds are put into a seedling raising plate 3, nutrient solution positioned on the seedling raising plate 3 is absorbed through the water absorption performance of the seedling raising block 2 to provide nutrients required by the growth of the plant seedlings and the seeds, air holes 2e on the side wall of the seedling raising block 2 are used for preventing the seedling raising block 2 from absorbing too much water to cause the incapability of the root system of the plants to breathe and cause root rot, the air holes 2e are used for air circulation, and the air root hole 2d is used for the root system to grow out through holes, there is some effect that supports the root system, the root system has also played the effect of protection root system simultaneously in being located seedling raising piece 2, prevent to entangle with other plant roots, reduce the survival rate of seedling, along with the growth of plant, the stem leaf of seedling is supported to rethread supporting component 4, the greenhouse that forms through incubator 1 provides the stable growing environment of plant, after cultivating the completion, through opening case lid 1b, take out the board of growing seedlings, directly can directly bury the soil planting with the culture block, the culture block passes through self degradable performance, make the culture block can be decomposed in soil, thereby improve seedling transplanting's survival rate.

The seedling raising block 2 is placed in the liquid storage tanks 3a, nutrient solution is poured into one of the flow guide tanks, the nutrient solution is infused into all the liquid storage tanks 3a through the flow guide tanks 3b in the length direction and the width direction of the seedling raising plate 3, the seedling raising block 2 absorbs the nutrient solution into the cavity 2b, and nutrients required by growth of plant seedlings or seeds can be provided through the water absorption performance of the seedling raising block 2.

After young plant growth, young plant's stem portion passes the mesh of support network 4b, young plant's leaf falls to support network 4b along with growing on, lighten the weight of leaf through support network 4b, thereby support the stem portion of seedling, the mesh also can be used for supporting the stem portion of plant simultaneously, support network 4 b's initial position is located the top of piece 2 of growing seedlings, along with the growth of plant, through rotatory knob 4d, the rotation of knob 4d has driven the rotation rather than fixed connection's threaded rod 4a, the rotation of threaded rod 4a has driven the removal rather than screw-thread fit thread bush 4b1, the removal of thread bush 4b1 has driven support network 4b and has removed along the direction of all guide bars 4c, thereby can match the growth of the stem leaf of plant along with the growth of plant.

Nutrient solution is poured into the water guide groove 1a1 of the box body 1a, the nutrient solution in the water guide groove 1a1 slides from the second diversion groove 1a2 into the first diversion groove 3b of the seedling raising plate, the nutrient solution is conveyed into each liquid storage groove 3a through the first diversion groove 3b, and the nutrient solution is absorbed through the water absorption performance of the seedling raising block 2, so that the nutrient solution can be supplemented for plant seedlings or seeds in the box body 1a without opening the box cover 1b, and the environmental temperature in the cultivation box 1 is kept.

The growth of the young plants in the incubator 1 can be observed through the observation window 1b1 so that the supporting members 4 can be adjusted and the nutrient solution required for supplementing the plants can be supplemented, the temperature and humidity in the incubator 1 can be controlled through the ventilation grilles 1b2 at both sides of the cover 1b, and the cultivation lamp 1b3 at the top of the cover 1b is used to provide ultraviolet rays required for the growth of the plants so that the plants can be uninterruptedly cultivated for twenty-four hours, thereby providing the cultivation efficiency.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A horticulture is planted and is used seedling raising box with seedling stem support function includes:

the cultivation box (1) comprises a box body (1a) and a box cover (1b), wherein the box body (1a) is used for placing plant seedlings or seeds into the box body (1a) for cultivation; the box cover (1b) is positioned at the top of the box body (1a), and the box cover (1b) is used for forming a greenhouse in the cultivation box (1) and promoting the growth of plant seedlings or seeds;

characterized in that, incubator (1) still includes:

a support component (4), wherein the support component (4) is positioned inside the box cover (1b), and the support component (4) is used for supporting the stem and the leaves of the plant seedling to prevent the bending of the rhizome;

the seedling raising plate (3) is positioned at the bottom of the interior of the box body (1a), and the seedling raising plate (3) is used for storing nutrient solution required by plants in a growth stage;

seedling piece (2), seedling piece (2) have a plurality of, a plurality of seedling piece (2) all are located seedling raising plate (3), a plurality of seedling piece (2) are water-absorbing material and make, a plurality of seedling piece (2) all are used for supporting the growth of plant stem leaf, can absorb nutrient solution in seedling raising plate (3) simultaneously.

2. The seedling raising box with the seedling stem supporting function for horticultural planting as claimed in claim 1, wherein the seedling raising block (2) is made of degradable, water-absorbing and elastic material, the seedling raising block (2) is in the shape of trapezoid block, the bottom of the seedling raising block (2) is provided with a clamping block (2a) matched with the seedling raising plate (3), the top of the seedling raising block (2) is internally provided with a cavity (2b), the top of the cavity (2b) is provided with a cross opening (2c), the bottom of the seedling raising block (2) is provided with a plurality of air root holes (2d), and the bottom of the four side walls of the seedling raising block (2) is provided with a plurality of air holes (2 e).

3. A nursery box with seedling stem supporting function for horticultural planting as claimed in claim 2, wherein said nursery plate (3) is a square plate, said nursery plate is provided with a plurality of liquid storage tanks (3a) arranged in equidistant rectangular array, said liquid storage tanks (3a) are matched with the clamping blocks (2a) at the bottom of the nursery blocks (2), said nursery plate (3) is provided with a plurality of first guiding grooves (3b) in width direction and length direction, said first guiding grooves (3b) are matched with the box body (1a), and said first guiding grooves (3b) pass through all the liquid storage tanks (3 a).

4. A nursery box with seedling stem supporting function for horticultural planting as claimed in claim 3, wherein the supporting member (4) comprises a threaded rod (4a), a supporting net (4b), a plurality of guiding rods (4c) and a knob (4d), the threaded rod (4a) penetrates through the center of the top of the box cover (1b) in a vertical state, the knob (4d) is located at the top of the threaded rod (4a) and fixedly connected with the threaded rod, the guiding rods (4c) are provided with a plurality of guiding rods (4c), the guiding rods (4c) are all located at the side of the threaded rod (4a) in a vertical state, the guiding rods (4c) are all parallel to the threaded rod (4a), the supporting net (4b) is horizontally sleeved on the threaded rod (4a) and all the guiding rods (4c), the middle of the supporting net (4b) is provided with a threaded sleeve (4b1), the thread bushing (4b1) is in thread fit with the threaded rod (4a), the supporting net (4b) is made of a net-shaped material with certain elasticity, and the mesh position of the supporting net (4b) is matched with the position of the liquid storage tank (3a) of the seedling raising plate (3).

5. A seedling raising box with a seedling stem supporting function for horticultural planting as claimed in claim 3, characterized in that the box body (1a) is square in structure, a water chute (1a1) is provided at the top of the box body (1a), a second diversion trench (1a2) matching with the first diversion trench (3b) of the seedling raising plate is provided on the inner wall of the box body (1a), and the top end of the second diversion trench (1a2) penetrates through the inner side of the water chute (1a 1).

6. A seedling raising box for horticultural planting having a seedling stem supporting function as claimed in claim 1, wherein the box cover (1b) is of a square structure, an observation window (1b1) is provided on the top of the box cover (1b), a cultivating lamp (1b3) is provided on the inner wall of the top of the box cover (1b), and air-permeable grilles (1b2) are provided on both sides of the box cover (1b) in the width direction.

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