CN209824731U - Portable device of growing seedlings - Google Patents

Abstract

The utility model belongs to the technical field of seedling culture, and discloses a portable seedling culture device, which comprises a support frame, a seedling culture plate and a plurality of bearing frames, wherein the bearing frames are sequentially fixed on the support frame from top to bottom, and two ends of the bearing frames in the longitudinal direction are respectively provided with a slide rail; the seedling raising plate is provided with a sliding chute matched with the sliding rail, and the seedling raising plate is slidably connected to the bearing frame through the mutual matching of the sliding rail and the sliding chute; a partition plate is arranged in the seedling raising plate, the partition plate divides the seedling raising plate into a seedling raising cavity and a liquid storage cavity from top to bottom, and nutrient solution is stored in the liquid storage cavity; the seedling cultivating device is characterized in that a plurality of bottomless planting pots are arranged in the seedling cultivating cavity, openings corresponding to the positions of the planting pots in a one-to-one mode are formed in the partition plate, seedling cultivating sponges are arranged in the planting pots, the planting pots are arranged at the tops of the seedling cultivating sponges, and the bottoms of the seedling cultivating sponges are in contact with nutrient solution in the liquid storage cavity after penetrating through the openings. The utility model has the advantages of the management of growing seedlings is convenient, and it is effectual to grow seedlings.

Description

Portable device of growing seedlings

Technical Field

The utility model relates to a technical field of growing seedlings, concretely relates to portable device of growing seedlings.

Background

The seedling culture means the culture of seedlings, and means the culture of seedlings in a nursery, a hotbed or a greenhouse for transplanting to the land for planting. The stage from the fine-grained manual protection of various organisms to the independent survival can also be referred to, in a common way, "the seedlings are strong and half harvested", and the importance of seedling cultivation is self-evident, and the seedling cultivation is a work with high labor intensity, time consumption and strong technical performance.

Present device of growing seedlings is mostly greenhouse soil or plant cultivation basin etc. generally adopts soil to grow seedlings, at the in-process of growing seedlings, needs to water soil to guarantee the normal growth of plant seed, and present device of growing seedlings is mostly multilayer design again, and the interval between each layer is generally less, and this makes the watering of soil and inconvenient, has reduced the convenience of the management of growing seedlings, has increased the degree of difficulty of the management of growing seedlings. In addition, because the soil is adopted for seedling culture, the state of the soil needs to be monitored in real time, the problems of soil-borne diseases and linear insect pests in seedling culture are prevented, the distance between each layer of the traditional seedling culture device is small, soil management and monitoring are inconvenient, the management difficulty of seedling culture is further increased, and the seedling culture effect is influenced.

SUMMERY OF THE UTILITY MODEL

Adopt soil to cultivate in order to solve current device of growing seedlings to cause the watering inconvenient, soil management is inconvenient, and the management convenience of growing seedlings that leads to descends, and the degree of difficulty increases, the problem of the effect variation of growing seedlings, the utility model aims to provide an adopt soilless culture, and the management is convenient, the effectual portable device of growing seedlings.

The utility model discloses the technical scheme who adopts does:

a portable seedling raising device comprises a support frame, a seedling raising plate and a plurality of bearing frames, wherein the bearing frames are sequentially fixed on the support frame from top to bottom, and the longitudinal two ends of each bearing frame are respectively provided with a slide rail;

the bottom of the seedling raising plate is provided with a sliding chute matched with the sliding rail, and the seedling raising plate is slidably connected to the bearing frame through the mutual matching of the sliding rail and the sliding chute;

a partition plate is arranged in the seedling raising plate, a seedling raising cavity is arranged above the partition plate, and a liquid storage cavity is arranged below the partition plate, wherein nutrient solution is stored in the liquid storage cavity;

the seedling cultivating device is characterized in that a plurality of bottomless planting pots are arranged in the seedling cultivating cavity, openings which correspond to the positions of the planting pots one to one are formed in the partition plate, seedling cultivating sponges are arranged in the planting pots, a seedling cultivating groove is formed in the tops of the seedling cultivating sponges, and the bottoms of the seedling cultivating sponges are in contact with nutrient solution in the liquid storing cavity after penetrating through the openings.

The seedling raising device is characterized by further comprising a nutrient solution supplementing mechanism, wherein the nutrient solution supplementing mechanism comprises a liquid storage box, a vertically arranged main liquid pipe and a horizontally arranged supplementing pipe, the liquid storage box is located at the top of the supporting frame, and each seedling raising plate which is not at the bottom end corresponds to one supplementing pipe;

a liquid supplementing hole is formed in one transverse end of the seedling raising plate, wherein the liquid supplementing hole is formed in the outer side wall, close to the main liquid pipe, of the seedling raising cavity, and the diameter of the liquid supplementing hole is larger than the outlet diameter of the supplementary pipe and the outlet diameter of the main liquid pipe respectively;

the inlet of the main liquid pipe is communicated with the liquid storage box, the outlet of the main liquid pipe extends into the liquid supplementing hole in the seedling raising plate positioned at the lowest part, the inlet of the supplementing pipe is communicated with the main liquid pipe, and the outlet of the supplementing pipe extends into the liquid supplementing hole in the seedling raising plate on the corresponding side;

the partition board is close to be equipped with the through-hole on the region in fluid infusion hole, the seedling raising plate is in complete sliding connection when on the bearing frame, and the export of supplementary pipe and the export of main liquid pipe stretch into in the fluid infusion hole of corresponding side, and are located directly over the through-hole.

Further preferably, a manual three-way valve is arranged between the supplementary pipe and the main pipe.

Preferably, a transparent observation window is arranged on the side wall of the liquid storage cavity, and digital scale marks are vertically arranged on the transparent observation window.

Preferably, an observation mirror which is obliquely arranged is arranged above each seedling raising plate.

Specifically, the number of the seedling raising plates is between 3 and 5, the number of the planting pots on each seedling raising plate is between 18 and 27, and the distance between every two adjacent seedling raising plates is between 30 and 50 cm.

Preferably, a handle is arranged on the side wall of one transverse end of the seedling raising plate.

Preferably, the bottom of the support frame is provided with universal wheels.

The utility model has the advantages that:

(1) the utility model relates to a portable device of growing seedlings, the utility model discloses an at the inside baffle that sets up of seedling growing plate, and set up the chamber of growing seedlings in the baffle top, set up in the baffle below and hold the liquid chamber, wherein, the intracavity of growing seedlings is equipped with the planting basin at the bottomless, is equipped with the cavernosum of growing seedlings in the planting basin, and the bottom of the cavernosum of growing seedlings passes the opening and holds the nutrient solution contact of liquid intracavity. Through the above design, the cavernosum of growing seedlings provides the seedling of the inslot of growing seedlings with the nutrient solution through the siphon principle, on the one hand, need not cultivate with soil, need not to water the seedling, fundamentally has directly avoided traditional device of growing seedlings because adopt multilayer structure and the soil watering that exists is inconvenient with the inconvenient problem of soil management, greatly reduced the management degree of difficulty of growing seedlings, improved the convenience of the management of growing seedlings and the effect of growing seedlings. On the other hand, the seedling culture sponge body is adopted to absorb nutrient solution through the siphon principle to culture seedlings, so that the problems of soil-borne diseases and linear insect pests in soil culture are solved, the survival rate of the seedlings is increased, and the seedling culture effect is further improved.

(2) The utility model discloses a spout and the mutually supporting of slide rail can make the quick follow bearing frame of seedling growing plate take out, are convenient for observe the growth situation of seedling in cultivation process, also are convenient for take out ripe seedling, further improvement the convenience of the management of growing seedlings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is the utility model provides a portable device of growing seedlings's schematic structure.

Fig. 2 is a schematic structural diagram of the portable seedling raising device without the seedling raising plate.

Fig. 3 is a cross-sectional view of the seedling raising plate provided by the utility model.

Fig. 4 is a schematic view of the three-dimensional structure of the seedling raising plate provided by the present invention.

Fig. 5 is an enlarged schematic view at a in fig. 4.

Fig. 6 is a schematic structural diagram of the partition board provided by the present invention.

Fig. 7 is a sectional view of the planting pot provided by the present invention.

Fig. 8 is a schematic view of the installation structure of the main liquid pipe and the supplementary pipe provided by the present invention.

Fig. 9 is a side view of the seedling raising plate provided by the present invention.

In the above figures, 1-support frame; 2-seedling raising plate; 3-a bearing frame; 4-a slide rail; 5-a chute; 6-a separator; 7-seedling raising chamber; 8-a liquid storage cavity; 9-planting pots; 10-opening; 11-seedling culture cavernous body; 12-seedling raising tank; 13-liquid storage tank; 14-main liquid pipe; 15-a supplementary tube; 16-fluid infusion holes; 17-a through hole; 18-manual three-way valve; 19-a transparent viewing window; 20-a sight glass; 21-a handle; 22-universal wheel.

Detailed Description

The invention will be further elucidated with reference to the embodiments described hereinafter. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

Example one

As shown in fig. 1-9, the portable seedling culture device provided by the embodiment comprises a support frame 1, a seedling culture plate 2 and a plurality of bearing frames 3, wherein the bearing frames 3 are sequentially fixed on the support frame 1 from top to bottom, and the longitudinal two ends of the bearing frames 3 are respectively provided with a sliding rail 4.

The bottom of seedling raising plate 2 be equipped with slide rail 4 matched with spout 5, seedling raising plate 2 pass through slide rail 4 with the sliding connection of mutually supporting of spout 5 is on bearing frame 3.

The seedling raising plate is characterized in that a partition plate 6 is arranged inside the seedling raising plate 2, a seedling raising cavity 7 is arranged above the partition plate 6, a liquid storage cavity 8 is arranged below the partition plate 6, and nutrient solution is stored in the liquid storage cavity 8.

A plurality of bottomless planting pots 9 are arranged in the seedling raising cavity 7, openings 10 corresponding to the positions of the planting pots 9 in a one-to-one mode are formed in the partition plate 6, seedling raising sponges 11 are arranged in the planting pots 9, a seedling raising groove 12 is formed in the tops of the seedling raising sponges 11, and the bottoms of the seedling raising sponges 11 are in contact with nutrient solution in the liquid storage cavity 8 after penetrating through the openings 10.

As shown in fig. 1 to 7, the following describes the specific structure of the portable seedling raising device:

the support frame 1 is used as a support of the whole seedling raising device and is used for bearing the bearing frame 3 and the seedling raising plate 2. In this embodiment, the supporting frame 1 may be, but is not limited to, a rectangular frame.

Bearing frame 3 is as the device that bears of seedling growing plate 2, slide rail 4 on the bearing frame 3 can mutually support with spout 5 on the seedling growing plate 2, and seedling growing plate 2 can be through mutually supporting of spout 5 and slide rail 4 promptly, and sliding connection is on bearing frame 3. Through the above design for the roll-off in the following support frame 1 that the board 2 of growing seedlings can be convenient, the staff of being convenient for observes the condition of cultivating of seedling on the board 2 of growing seedlings, and after the seedling is ripe, the staff of also being convenient for takes, has improved the convenience of the management of growing seedlings, also improves the convenience that whole device used.

The partition plate 6 is used as a base of the seedling culture cavity 7 and separates the seedling culture cavity 7 from the liquid storage cavity 8; nutrient solution is stored in the liquid storage cavity 8; a plurality of bottomless planting pots 9 are arranged in the seedling raising cavity 7, seedling raising sponges 11 are arranged in the planting pots 9, openings 10 corresponding to the positions of the planting pots 9 one by one are formed in the partition plates 6, and seedling raising grooves 12 are formed in the seedling raising sponges 11.

Through the design, the seedling culture sponge body 11 provides the nutrient solution in the liquid storage cavity 8 for the seedlings in the seedling culture tank 12 through the siphon principle, on one hand, the portable seedling culture device does not need to culture the seedlings by using soil, the problem that the soil needs to be irrigated is avoided, the problems of inconvenient soil irrigation and soil management of a traditional seedling culture device due to the adoption of a multilayer structure are directly and fundamentally avoided, the seedling culture management difficulty is reduced, and the convenience of seedling culture management and the seedling culture effect are improved; on the other hand, the portable device of growing seedlings adopts the nutrient solution to cultivate the seedling, has avoided traditional device of growing seedlings to adopt soil to cultivate the problem of the soil-borne disease that probably exists and the nematode pest, has improved the success rate of growing seedlings.

In summary, through the description of the portable seedling raising device: on one hand, the seedling culture sponge body 11 is adopted to provide nutrient solution for the seedlings in the seedling culture groove 12 for culture through a siphon principle, so that the portable seedling culture device does not need to culture the seedlings by using soil, the step of soil irrigation is omitted, the problems of inconvenient soil irrigation and inconvenient management of the traditional seedling culture device due to the adoption of a multilayer structure are fundamentally avoided, the difficulty of seedling culture management is reduced, and the convenience of seedling culture management and the success rate of seedling culture are improved; on the other hand, the method of nutrient solution cultivation is adopted, so that the problems of soil-borne diseases and nematode diseases in the traditional soil cultivation are avoided, and the success rate of seedling cultivation is further improved. In addition, through mutually supporting of slide rail 4 and spout 5 for take out from bearing frame 3 that seedling raising plate 2 can be convenient, the staff of being convenient for observes the condition of cultivating of seedling, also is convenient for take of ripe seedling, the further management degree of difficulty that has reduced seedling raising has improved the convenience of the management of growing seedlings and the success rate of growing seedlings.

Optimized, still include nutrient solution and supply the mechanism, nutrient solution supply the mechanism including storing liquid case 13, the main liquid pipe 14 of vertical setting and the supplementary pipe 15 of horizontal setting, wherein, it is located to store liquid case 13 the top of support frame 1, and each of non-bottom the seedling raising plate 2 corresponds supplementary pipe 15 respectively.

One horizontal end of the seedling raising plate 2 is provided with a liquid supplementing hole 16, wherein the liquid supplementing hole 16 is positioned on the outer side wall of the seedling raising cavity 7 close to the main liquid pipe 14, and the diameters of the liquid supplementing hole 16 are respectively larger than the outlet diameter of the supplementary pipe 15 and the outlet diameter of the main liquid pipe 14.

The inlet of the main liquid pipe 14 is communicated with the liquid storage box 13, the outlet of the main liquid pipe 14 extends into the liquid supplementing hole 16 on the seedling raising plate 2 positioned at the lowest part, the inlet of the supplementary pipe 15 is communicated with the main liquid pipe 14, and the outlet of the supplementary pipe 15 extends into the liquid supplementing hole 16 on the seedling raising plate 2 at the corresponding side.

The partition board 6 is provided with a through hole 17 in the area close to the liquid supplementing hole 16, and when the seedling raising plate 2 is completely connected to the bearing frame 3 in a sliding manner, the outlet of the supplementing pipe 15 and the outlet of the main liquid pipe 14 extend into the liquid supplementing hole 16 on the corresponding side and are positioned right above the through hole 17.

Preferably, a manual three-way valve 18 is arranged between the supplementary pipe 15 and the main pipe 14.

Preferably, a transparent observation window 19 is arranged on the side wall of the liquid storage cavity 8, and digital scale marks are vertically arranged on the transparent observation window 19.

As shown in fig. 8 and 9, the following describes a specific structure of the nutrient supplement mechanism:

the liquid storage box 13 is used for storing nutrient solution required during seedling cultivation, and is communicated with the liquid storage cavity 8 through the main liquid pipe 14 and the supplement pipe 15, so that the situation that the seedling cultivation is influenced due to insufficient nutrient solution in the liquid storage cavity 8 is prevented.

The inlet of the main liquid pipe 14 is communicated with the liquid storage box 13, and the outlet of the main liquid pipe 14 is communicated with the liquid storage cavity 8 on the seedling raising plate 2 at the lowest position.

The outlet diameter of the supplementary pipe 15 and the outlet diameter of the main pipe 14 are smaller than the diameter of the liquid supplementing hole 16, and by means of the design, when the seedling raising plate 2 is completely connected to the bearing frame 3 in a sliding mode, the outlet of the supplementary pipe 15 and the outlet of the main pipe 14 can directly extend into the liquid supplementing hole 16, and when the seedling raising plate 2 slides out of the bearing frame 3, the outlet of the main pipe 14 and the supplementary pipe 15 can move out of the liquid supplementing hole 16. Through the design, the supplement pipe 15 and the main liquid pipe 14 do not influence the seedling raising plate 2 to slide out of the bearing frame 3, and nutrient solution can be supplemented into the liquid storage cavity 8 when the seedling raising plate 2 slides into the bearing frame 3.

Since the liquid supplementing hole 16 is arranged on the outer side wall of the seedling raising cavity 7, the through hole 17 can ensure that the nutrient solution flowing out of the outlet of the liquid supplementing pipe 15 and the outlet of the main liquid pipe 14 can smoothly flow into the liquid storage cavity 8.

What is optimized on the scheme is that a manual three-way valve 18 is arranged between the main liquid pipe 14 and the supplement pipes 15, and through the design, the opening or closing of each supplement pipe 15 can be controlled, and the nutrient solution is supplemented to the liquid storage cavity 8 in one seedling raising plate 2, so that the use convenience is improved.

The following specifically describes the specific connection structure of the manual three-way valve 18:

in the present embodiment, the description is made by way of example of the structure in fig. 8: the inlet of the uppermost manual three-way valve 18 is communicated with the inlet of the main liquid pipe 14, the first outlet of the uppermost manual three-way valve 18 is communicated with the corresponding supplementary pipe 15, the second outlet of the uppermost manual three-way valve 18 is communicated with the inlet of the next manual three-way valve 18, the first outlet of the next manual three-way valve 18 is communicated with the corresponding supplementary pipe 15, and the second outlet of the next manual three-way valve 18 is communicated with the outlet of the main liquid pipe 14.

In addition, the side wall of the liquid storage cavity 8 is also provided with a transparent observation window 19, and the transparent observation window 19 is vertically provided with digital scale marks, so that the surplus of the nutrient solution in each liquid storage cavity 8 can be conveniently observed, the nutrient solution can be timely supplemented when insufficient, and the use convenience is further improved.

In this embodiment, for example, the side wall of the liquid storage box 13 is also provided with a transparent observation window, and the top of the liquid storage box is provided with a liquid injection port, so that the worker can conveniently check the residual amount of the nutrient solution in the liquid storage box 13, and when the residual amount is insufficient, the nutrient solution is supplemented through the liquid injection port.

Preferably, an observation mirror 20 which is obliquely arranged is arranged above each seedling raising plate 2. Through setting up observation mirror 20, can reflect the seedling cultivation condition in every planting basin 9 on observation mirror 20, the staff of being convenient for looks over, further improvement the convenience of the management of growing seedlings.

Preferably, the number of the seedling raising plates 2 is between 3 and 5, the number of the planting pots 9 on each seedling raising plate 2 is between 18 and 27, and the distance between every two adjacent seedling raising plates 2 is between 30 and 50 cm. Through the design, the plurality of Yue seedling raising plates 2 and the planting pots 9 are arranged, so that the number of seedlings raised each time can be increased, and the cost of multiple times of cultivation is reduced. The distance between two adjacent seedling raising plates 2 is set to adapt to the cultivation of seedlings with different heights, so that the practicability of the whole device is improved.

In the embodiment, the number of the seedling raising plates 2 is 3, the number of the planting pots 9 on each seedling raising plate 2 is 21, and the distance between two adjacent seedling raising plates 2 is 40 cm.

Preferably, a handle 21 is arranged on the side wall of one transverse end of the seedling raising plate 2. Through the design, can make things convenient for the staff to take out the seedling raising plate 2 from bearing frame 3 through handle 21, improve the convenience of using.

Preferably, the bottom of the support frame 1 is provided with universal wheels 22. Through the design, can be convenient for whole device and remove, further increase the convenience of using.

To sum up, the utility model provides a portable device of growing seedlings has following technological effect:

(1) the utility model relates to a portable device of growing seedlings, the utility model discloses an at the inside baffle 6 that sets up of seedling growing plate, and set up seedling growing chamber 7 above baffle 6, set up in baffle 6 below and hold liquid chamber 8, wherein, be equipped with bottomless planting basin 9 in seedling growing chamber 7, be equipped with seedling growing cavernosum 11 in planting basin 9, seedling growing cavernosum 11's bottom is passed opening 10 and is held the nutrient solution contact in the liquid chamber 8. Through the above design, the cavernosum 11 that grows seedlings provides the nutrient solution for the seedling in the groove 12 of growing seedlings through the siphon principle, on the one hand, need not cultivate with soil, need not to water the seedling, fundamentally has directly avoided traditional device of growing seedlings because adopt multilayer structure and the soil watering that exists is inconvenient with the inconvenient problem of soil management, greatly reduced the management degree of difficulty of growing seedlings, improved the convenience of the management of growing seedlings and the effect of growing seedlings. On the other hand, seedling is cultivated by adopting the seedling culture sponge body 11 through a siphon principle, so that the problems of soil-borne diseases and linear insect pests in soil cultivation are avoided, the survival rate of the seedlings is increased, and the seedling culture effect is further improved.

(2) The utility model discloses a spout 5 and slide rail 4 mutually support, can make the quick follow bearing frame 3 of seedling growing plate 2 take out, are convenient for observe the growth situation of seedling in cultivating the process, also are convenient for take out ripe seedling, further improvement the convenience of the management of growing seedlings.

(3) The utility model discloses still be equipped with nutrient solution and supply the mechanism, and be equipped with transparent observation window on the lateral wall that holds liquid chamber 8, the surplus of nutrient solution in holding liquid chamber 8 can be clear to the grasp, timely when not enough supplements through main liquid pipe 14 and supplementary pipe 15, guarantees the normal cultivation of seedling.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a portable device of growing seedlings which characterized in that: the seedling raising plate comprises a support frame (1), a seedling raising plate (2) and a plurality of bearing frames (3), wherein the bearing frames (3) are sequentially fixed on the support frame (1) from top to bottom, and slide rails (4) are respectively arranged at the longitudinal two ends of each bearing frame (3);

the bottom of the seedling raising plate (2) is provided with a sliding chute (5) matched with the sliding rail (4), and the seedling raising plate (2) is slidably connected to the bearing frame (3) through the mutual matching of the sliding rail (4) and the sliding chute (5);

a partition plate (6) is arranged inside the seedling raising plate (2), a seedling raising cavity (7) is arranged above the partition plate (6), a liquid storage cavity (8) is arranged below the partition plate (6), and nutrient solution is stored in the liquid storage cavity (8);

the seedling cultivating device is characterized in that a plurality of bottomless planting pots (9) are arranged in the seedling cultivating cavity (7), openings (10) which correspond to the positions of the planting pots (9) in a one-to-one mode are formed in the partition plate (6), seedling cultivating sponges (11) are arranged in the planting pots (9), seedling cultivating grooves (12) are formed in the tops of the seedling cultivating sponges (11), and the bottoms of the seedling cultivating sponges (11) are in contact with nutrient solution in the liquid storage cavities (8) after penetrating through the openings (10).

2. A portable seedling raising device according to claim 1, characterized in that: the seedling raising device is characterized by further comprising a nutrient solution supplementing mechanism, wherein the nutrient solution supplementing mechanism comprises a liquid storage box (13), a vertically arranged main liquid pipe (14) and a horizontally arranged supplementing pipe (15), the liquid storage box (13) is positioned at the top of the support frame (1), and each seedling raising plate (2) which is not at the bottom end corresponds to one supplementing pipe (15) respectively;

a liquid supplementing hole (16) is formed in one transverse end of the seedling raising plate (2), wherein the liquid supplementing hole (16) is formed in the outer side wall, close to the main liquid pipe (14), of the seedling raising cavity (7), and the diameters of the liquid supplementing hole (16) are respectively larger than the outlet diameter of the supplementary pipe (15) and the outlet diameter of the main liquid pipe (14);

the inlet of the main liquid pipe (14) is communicated with the liquid storage box (13), the outlet of the main liquid pipe (14) extends into a liquid supplementing hole (16) on the seedling raising plate (2) positioned at the lowest part, the inlet of the supplementary pipe (15) is communicated with the main liquid pipe (14), and the outlet of the supplementary pipe (15) extends into the liquid supplementing hole (16) on the seedling raising plate (2) on the corresponding side;

baffle (6) are close to be equipped with through-hole (17) on the region in fluid infusion hole (16), seedling raising plate (2) is in complete sliding connection when on bearing frame (3), the export of supplementary pipe (15) and the export of main liquid pipe (14) stretch into in fluid infusion hole (16) of corresponding side, and are located directly over through-hole (17).

3. A portable seedling raising device according to claim 2, characterized in that: a manual three-way valve (18) is arranged between the supplement pipe (15) and the main liquid pipe (14).

4. A portable seedling raising device according to claim 1, characterized in that: a transparent observation window (19) is arranged on the side wall of the liquid storage cavity (8), and digital scale marks are vertically arranged on the transparent observation window (19).

5. A portable seedling raising device according to claim 1, characterized in that: an observation mirror (20) which is obliquely arranged is arranged above each seedling raising plate (2).

6. A portable seedling raising device according to claim 1, characterized in that: the number of the seedling raising plates (2) is between 3 and 5, the number of the planting pots (9) on each seedling raising plate (2) is between 18 and 27, and the distance between every two adjacent seedling raising plates (2) is between 30 and 50 cm.

7. A portable seedling raising device according to claim 1, characterized in that: the lateral wall of one transverse end of the seedling raising plate (2) is provided with a handle (21).

8. The portable seedling raising device according to claim 1, characterized in that the bottom of the support frame (1) is provided with universal wheels (22).