CN115777280A - Three-dimensional seed cultivation equipment convenient for cultivation of various seeds - Google Patents

Abstract

The invention discloses a three-dimensional seed cultivation device convenient for cultivating various seeds, which comprises: the supporting component comprises a supporting plate, wherein a plurality of layers of supporting frames are arranged on the supporting plate, a cultivation box is arranged on each supporting frame, and a liquid injection pipe is arranged above each cultivation box; nutrient solution supply assembly, including a plurality of solution tanks, the solution tank lower extreme all communicates and annotates the liquid piece, the exit end of annotating the liquid piece all communicates and has joined in marriage the liquid pipe, and is a plurality of the export of joining in marriage the liquid pipe can communicate in same notes liquid pipe or communicate respectively in a plurality of notes liquid pipes. The invention is provided with a plurality of solution boxes which can be used for containing nutrient solutions with different concentrations, the liquid injection piece absorbs the nutrient solution in the solution boxes and injects the nutrient solution into the liquid injection pipe, and then the liquid injection pipe injects the nutrient solution into the cultivation box, thereby completing the supply of the nutrient solution. If a plurality of the export of joining in marriage the liquid pipe communicates in same notes liquid pipe, then can mix out the nutrient solution of new concentration to for different seeds provide different nutrient solutions, consequently be convenient for cultivate multiple seed.

Description

Three-dimensional seed cultivation equipment convenient for cultivation of various seeds

Technical Field

The invention belongs to the technical field of seed cultivation, and particularly relates to a three-dimensional seed cultivation device convenient for cultivation of various seeds.

Background

The seed cultivation is a process of cultivating seeds into seedlings and continuously growing the seedlings. In order to improve the efficiency of seed cultivation, cultivation vessels can be carried in a three-dimensional manner, i.e. a plurality of layers of cultivation vessels are carried by three-dimensional shelves.

In some cases, it is necessary to cultivate a plurality of kinds of seeds simultaneously in a small space (e.g., an laboratory), and in such a case, a seed cultivating apparatus which is three-dimensionally convenient for the cultivation of a plurality of kinds of seeds is required. The demand of seed cultivation equipment for cultivating various seeds is that different seeds need to be provided with nutrient solutions with different concentrations or types, and the existing seed cultivation equipment is difficult to provide nutrient solutions with various concentrations or types, so that the demand of different seeds for the nutrient solutions with different concentrations or types is met.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a three-dimensional seed cultivation device convenient for cultivating various seeds, which has the advantage of meeting the requirements of different seeds on different concentrations or types of nutrient solutions and solves the problem that the conventional seed cultivation device is difficult to provide the nutrient solutions with various concentrations or types.

The present invention is thus achieved, a three-dimensional seed growing apparatus for facilitating the growing of a plurality of seeds, comprising:

the supporting component comprises a supporting plate, wherein a plurality of layers of supporting frames are arranged on the supporting plate, a cultivation box is arranged on each supporting frame, and a liquid injection pipe is arranged above each cultivation box;

nutrient solution supply assembly, including a plurality of solution tanks, the solution tank lower extreme all communicates and annotates the liquid piece, the exit end of annotating the liquid piece all communicates and has joined in marriage the liquid pipe, and is a plurality of the export of joining in marriage the liquid pipe can communicate in same notes liquid pipe or communicate respectively in a plurality of notes liquid pipes.

Through the aforesaid setting, different concentration or different nutrition kind's nutrient solution can be placed to a plurality of solution tanks, annotates the nutrient solution that the liquid piece absorbed in the solution tank and pours into the notes liquid pipe, annotates the liquid pipe and pours into the nutrient solution into the cultivation box again to accomplish the supply of nutrient solution.

If the outlets of the liquid distribution pipes are communicated with the same liquid injection pipe, the nutrient solution with new concentration or new nutrient substances can be mixed, so that different nutrient solutions are provided for different seeds. Thus facilitating the cultivation of a variety of seeds.

Preferably, the liquid injection pipe is fixedly connected to the support plate;

the inlet end of the liquid injection pipe is communicated with a plurality of branch pipes, the end parts of the branch pipes are provided with first rubber plugs, and first liquid inlet holes are formed in the first rubber plugs;

at least part of the liquid distribution pipe is a bendable pipeline;

an outlet of the liquid distribution pipe is communicated with a tapered pipe, and the tapered pipe can be inserted into the first liquid inlet hole.

Through this setting, after the tapered pipe can insert first feed liquor hole, join in marriage the liquid pipe and can pour into the branch pipe with the nutrient solution through the tapered pipe. After pulling out the taper pipe, can block up the feed liquor hole through the deformation of first rubber buffer to liquid in the branch pipe can not leak out.

The plurality of liquid distribution pipes can be inserted into different first liquid inlet holes, so that nutrient solutions with different concentrations of nutrient substances can be injected into different branch pipes, and then the nutrient solutions with different concentrations are mixed in the liquid injection pipes and then supplied into the cultivation box.

Preferably, the liquid injection piece can inject liquid and suck liquid;

one side of backup pad has the spout, the spout downside is provided with the water pocket, the water inlet of water pocket has the second rubber buffer, the second inlet has on the second rubber buffer, tapered tube can run through in the second inlet, the support frame sets up the water pocket upside.

Through the setting, the conical pipe runs through the second inlet, can pour into the nutrient solution into the water pocket, makes the upper surface height of water pocket rise to jack up the support frame, the support frame rises along the spout, thereby adjustable support frame's height. When the tapered pipe is drawn out from the second liquid inlet, the height of the supporting frame is kept unchanged. When the height of support frame is reduced to needs, the tapered pipe runs through the second inlet, annotates the liquid spare and takes out the nutrient solution in the water pocket to reduce the height of support frame.

When different seeds are cultivated on different layers, the requirements of different seeds on the height of the space can be different, so that the height of the support frame is adjusted in the above mode, and different height spaces are provided for different seeds on different layers.

Preferably, the support frame is rotatably connected with a rotary table through a rotary shaft, the rotary table is provided with an accommodating groove, and the cultivation box is arranged in the accommodating groove;

a plurality of joint grooves have been seted up to the marginal equidistance of carousel, fixedly connected with joint shell fragment on the support frame, one side card of joint shell fragment is gone into in the joint groove.

Through rotating the carousel, the position of adjustable cultivation box to be convenient for put into the cultivation box with the seed.

When the rotary table is static, one side of the clamping elastic sheet is clamped into the clamping groove, so that the rotary table can be prevented from rotating automatically. When the rotary disc is rotated manually, the clamping grooves arranged at equal intervals can provide friction force for the hands of an operator, so that the rotary disc is convenient to rotate. And, every rotation certain angle, the joint shell fragment can send vibrations sound to be convenient for judge carousel pivoted angle through sound.

Preferably, the support frame is provided with a plurality of cultivation boxes;

the accommodating groove is a plurality of coaxial annular grooves, and the cultivating box is an annular box body corresponding to the accommodating groove in shape and size;

the cultivation box is provided with a bearing plate, the bearing plate is provided with a plurality of placing holes, and a liquid storage layer is attached to the lower side of the bearing plate.

Preferably, the lower side of the bearing plate is fixedly connected with a clamping block;

the joint has the annular plate between the joint piece, the last accommodation hole that has of annular plate, the stock solution layer is fixed to be set up in the accommodation hole.

Preferably, the invention also comprises a light adjusting component;

the illumination adjusting assembly comprises a lamp set, the lamp set is arranged on the lower side of the supporting frame, and an illumination adjusting plate is arranged on the lower side of the lamp set;

the illumination adjusting plate comprises a light hole, and a movable light shielding plate is arranged on the light hole. The lamp group provides illumination for plants. The position of the light screen is adjusted to enable the light screen to block different areas of the light holes, so that light passing through the light holes is adjusted to perform illumination adjustment.

Preferably, the illumination adjusting plate is a circular plate, and the light holes are formed in the illumination adjusting plate at equal intervals;

the light shading plate comprises a central plate and sub-plates, wherein the central plate is rotatably connected to the center of the illumination adjusting plate, the sub-plates are connected to the edge of the central plate at equal intervals, and the sub-plates correspond to the light holes one to one.

Preferably, the upper side of the solution tank is fixedly connected with a motor, the output end of the motor is fixedly connected with a first rotating shaft, the first rotating shaft extends into the solution tank, and a helical blade is wound on the first rotating shaft. The solution tank is used for placing nutrient solution, and the motor drives first pivot to rotate to make helical blade stir nutrient solution, make the nutrient solution mixing. In this embodiment, when the helical blade stirs the nutrient solution, the middle part of the nutrient solution turns upwards, so that the sediment at the bottom is further mixed into the nutrient solution at the upper layer, and the nutrient solution is more uniform.

Preferably, the liquid injection part comprises a hose and a driving part, wherein one end of the hose is communicated with the solution tank;

the driving piece comprises an annular plate and a second rotating shaft which are coaxially arranged, the hose is arranged on the inner surface of the annular plate, more than two rotating rods are arranged at the edge of the second rotating shaft, an extrusion wheel for extruding the hose is arranged at the end part of each rotating rod, and the extrusion wheel can be attached to the inner surface of the annular plate;

the second rotating shaft is in transmission connection with the first rotating shaft.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention is provided with a plurality of solution boxes which can be used for containing nutrient solutions with different concentrations, the liquid injection piece absorbs the nutrient solution in the solution boxes and injects the nutrient solution into the liquid injection pipe, and then the liquid injection pipe injects the nutrient solution into the cultivation box, thereby completing the supply of the nutrient solution.

If the outlets of the liquid distribution pipes are communicated with the same liquid injection pipe, the nutrient solution with new concentration can be mixed, so that different nutrient solutions are provided for different seeds. Thus facilitating the cultivation of a variety of seeds.

2. The invention is provided with the conical pipe, and after the conical pipe can be inserted into the first liquid inlet hole, the liquid distribution pipe can inject nutrient solution into the branch pipe through the conical pipe. After the taper pipe is pulled out, the liquid inlet hole can be blocked up through the deformation of the first rubber plug, so that the liquid in the branch pipe cannot leak out. The plurality of liquid distribution pipes can be inserted into different first liquid inlet holes, so that nutrient solutions with different concentrations of nutrient substances can be injected into different branch pipes, and then the nutrient solutions with different concentrations are mixed in the liquid injection pipes and then supplied into the cultivation box.

Drawings

FIG. 1 is a schematic structural diagram of a three-dimensional seed growing apparatus for facilitating multiple seed growing according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic structural view of a portion A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic structural diagram of a portion B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic structural view of a portion C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic view of a seed growing apparatus for growing a plurality of seeds according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic structural view of a portion D in FIG. 5 according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a front view of a carrier plate and an arc plate according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a top view of an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a lighting adjustment assembly provided by an embodiment of the present invention;

FIG. 10 is a schematic structural view of the interior of the solution tank according to the embodiment of the present invention;

fig. 11 is a schematic structural diagram of the solution tank and the liquid injection member according to the embodiment of the present invention.

In the figure: 100. a support assembly; 200. a nutrient supply assembly; 110. a support plate; 120. a support frame; 130. a cultivation box; 140. a liquid injection pipe; 210. a solution tank; 220. injecting liquid; 230. a liquid distribution pipe; 141. a branch pipe; 142. a first rubber plug; 143. a first liquid inlet hole; 231. a tapered tube;

111. a chute; 142. a water bladder; 113. a second rubber plug; 114. a second liquid inlet;

150. a turntable; 151. accommodating grooves; 152. a clamping groove; 153. clamping the elastic sheet;

131. a carrier plate; 1311. placing holes; 132. a liquid storage layer; 133. a clamping block; 134. an annular plate; 135. an accommodation hole;

300. a lighting adjustment assembly; 310. a lamp group; 320. a light adjusting plate; 321. a light-transmitting hole; 330. a visor; 331. a center plate; 332. a daughter board;

211. a motor; 212. a first rotating shaft; 213. a helical blade; 214. a stirring rod; 221. a hose; 222. a drive member; 2221. an arc-shaped accommodating groove; 2222. a second rotating shaft; 2223. rotating the rod; 2224. and (4) extruding the wheel.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

In some cases, a small amount of multiple seeds need to be cultivated in a narrow space (such as an laboratory), the demands of different seeds on nutrient solution are different, and the conventional seed cultivating equipment is difficult to provide nutrient solution with multiple concentrations or types, so that the demands of different seeds on nutrient solution with different concentrations or types are met

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

Example 1

Referring to fig. 1, a seed growing apparatus for three-dimensionally facilitating the growing of a plurality of seeds according to an embodiment of the present invention includes a support assembly 100 and a nutrient solution supply assembly 200, wherein the support assembly 100 is used for carrying seeds, and the nutrient solution supply assembly 200 is used for supplying nutrient solution to the seeds.

The support assembly 100 comprises a support plate 110, wherein a plurality of layers of support frames 120 are arranged on the support plate 110, a culture box 130 is arranged on each support frame 120, and a liquid injection pipe 140 is arranged above each culture box 130;

the nutrient solution supply assembly 200 comprises a plurality of solution tanks 210, wherein the lower ends of the solution tanks 210 are communicated with liquid injection pieces 220, the outlet ends of the liquid injection pieces 220 are communicated with liquid distribution pipes 230, and the outlets of the liquid distribution pipes 230 can be communicated with the same liquid injection pipe 140 or a plurality of liquid injection pipes 140 respectively.

In this embodiment, the plurality of solution tanks 210 may contain nutrient solutions of different concentrations or different nutrient species, the injection member 220 sucks the nutrient solution in the solution tank 210 and injects the nutrient solution into the injection tube 140, and the injection tube 140 injects the nutrient solution into the incubation box 130, thereby completing the supply of the nutrient solution.

If the outlets of the liquid dispensing tubes 230 are connected to the same liquid injection tube 140, the nutrient solution with new concentration or new nutrient substance can be mixed, so as to provide different nutrient solutions for different seeds. Thus facilitating the cultivation of a variety of seeds.

Specifically, referring to fig. 2 and 3, the liquid injecting pipe 140 is fixedly connected to the supporting plate 110;

the inlet end of the liquid injection pipe 140 is communicated with a plurality of branch pipes 141, the end of each branch pipe 141 is provided with a first rubber plug 142, and each first rubber plug 142 is provided with a first liquid inlet hole 143;

the liquid distribution pipe 230 is at least partially a bendable pipe;

the outlet of the liquid distribution pipe 230 is communicated with a tapered pipe 231, and the tapered pipe 231 can be inserted into the first liquid inlet hole 143.

With this arrangement, after the tapered pipe 231 can be inserted into the first liquid inlet hole 143, the liquid distribution pipe 230 can inject the nutrient solution into the branch pipe 141 through the tapered pipe 231. After the taper pipe 231 is pulled out, the liquid inlet hole can be blocked up through the deformation of the first rubber plug 142, so that the liquid in the branch pipe 141 cannot leak out.

The plurality of liquid distribution tubes 230 are inserted into the different first liquid inlet holes 143 so that the nutrient solutions of different concentrations of the nutrients are injected into the different branch tubes 141, and then the nutrient solutions of different concentrations are mixed in the liquid injection tube 140 and supplied into the cultivation box 130.

Example 2

On the basis of the above embodiment, the following settings are also made:

referring to fig. 4, the liquid injection member 220 can inject and absorb liquid;

one side of the supporting plate 110 is provided with a sliding groove 111, a water bag 112 is arranged on the lower side of the sliding groove 111, a water inlet of the water bag 112 is provided with a second rubber plug 113, a second liquid inlet 114 is formed in the second rubber plug 113, the tapered tube 231 can penetrate through the second liquid inlet 114, and the supporting frame 120 is arranged on the upper side of the water bag 112.

In this embodiment, the tapered pipe 231 extends through the second inlet port 114, so that the nutrient solution can be injected into the water bag 112, the height of the upper surface of the water bag 112 is raised, the supporting frame 120 is lifted, and the supporting frame 120 is raised along the sliding groove 111, so that the height of the supporting frame 120 can be adjusted. When the tapered tubes 231 are drawn out of the second inlet port 114, the height of the support bracket 120 remains unchanged. When the height of the support frame 120 needs to be reduced, the tapered pipe 231 penetrates through the second liquid inlet 114, and the liquid injection member 220 extracts the nutrient solution in the water bag 112, so that the height of the support frame 120 is reduced.

When different seeds are cultivated in different layers, the requirements of the different seeds on the height of the space may be different, and therefore, the height of the support frame 120 is adjusted in the above manner, so that different height spaces are provided for the different seeds in different layers.

It should be noted that the same nutrient solution is filled into the water bag 112, and when the nutrient solution is extracted, the nutrient solution is also extracted through the same injection member, so that the nutrient solution can be reused.

Example 3

On the basis of the above embodiment, the following settings are also made:

referring to fig. 5 and 6, a rotating plate 150 is rotatably connected to the supporting frame 120 through a rotating shaft, the rotating plate 150 has an accommodating groove 151, and the cultivating box 130 is disposed in the accommodating groove 151;

a plurality of joint grooves 152 have been seted up to the marginal equidistance of carousel 150, fixedly connected with joint shell fragment 153 on the support frame 120, one side card of joint shell fragment 153 is gone into in the joint groove 152.

In this embodiment, the position of the incubation box 130 can be adjusted by rotating the turntable 150, thereby facilitating the placement of seeds into the incubation box 130.

When the turntable 150 is at rest, one side of the clamping spring piece 153 is clamped into the clamping groove 152, so that the turntable 150 can be prevented from rotating by itself. When the rotary disc 150 is rotated manually, the clamping grooves 152 formed at equal intervals can provide friction force for the hand of the operator, so that the rotary disc is convenient to rotate. Moreover, the snap-in spring 153 may generate a vibration sound when the turntable is rotated for a certain angle, so that the rotation angle of the turntable 150 can be easily determined by the sound.

Example 4

On the basis of the above embodiment, the following settings are also made:

referring to fig. 6, 7 and 8, the support frame 120 has a plurality of cultivation boxes 130 thereon;

the accommodating groove 151 is a plurality of coaxial annular grooves, and the cultivating box 130 is an annular box body corresponding to the shape and size of the accommodating groove 151;

the cultivation box 130 has a carrier plate 131, the carrier plate 131 has a plurality of placing holes 1311, and the lower side of the carrier plate 131 is attached with a liquid storage layer 132.

In this embodiment, different accommodating grooves 151 can cultivate different kinds of seeds. The liquid storage layer 132 may be a sponge layer, and may draw the nutrient solution from the cultivation box 130. The seeds are placed in the placing holes 1311 with the lower sides of the seeds contacting the liquid storage layer 132 so that the liquid storage layer 132 can provide the seeds with the nutrient solution.

Further, a clamping block 133 is fixedly connected to the lower side of the bearing plate 131; the annular plate 134 is clamped between the clamping blocks 133, the annular plate 134 has a receiving hole 135, and the liquid storage layer 132 is fixedly disposed in the receiving hole 135.

When the reservoir 132 needs to be replaced, the carrier plate 131 is removed from the cultivation box 130, and the ring plate 134 is pulled out from the engagement block 133, thereby facilitating the replacement of the reservoir 132.

In this embodiment, there is no need to provide positioning for the snap-in block 133. The inner ring of the annular plate 134 and the inner ring of the annular cultivating box 130 may have the same diameter so that they are aligned to be engaged.

Example 5

On the basis of the above embodiment, the following settings are also made:

referring to fig. 9, a lighting adjustment assembly 300 is further included;

the illumination adjustment assembly 300 comprises a lamp set 310, wherein the lamp set 310 is arranged at the lower side of the support frame 120, and an illumination adjustment plate 320 is arranged at the lower side of the lamp set 310;

the illumination adjustment plate 320 includes a light transmission hole 321, and a movable light shielding plate 330 is disposed on the light transmission hole 321.

In this embodiment, the light bank 310 provides illumination for the plants. The position of the light shielding plate 330 is adjusted to make the light shielding plate 330 block different areas of the light transmission hole 321, so as to adjust the light passing through the light transmission hole 321 for illumination adjustment.

Further, the illumination adjusting plate 320 is a circular plate, and the light holes 321 are equidistantly formed in the illumination adjusting plate 320; the light shielding plate 330 includes a central plate 331 and sub-plates 332, the central plate 331 is rotatably connected to the center of the illumination adjustment plate 320, the sub-plates 332 are equidistantly connected to the edges of the central plate 331, and the sub-plates 332 correspond to the light holes 321 one by one.

Example 6

On the basis of the above embodiment, the following settings are also made:

referring to fig. 10 and 11, a motor 211 is fixedly connected to an upper side of the solution tank 210, an output end of the motor 211 is fixedly connected to a first rotating shaft 212, the first rotating shaft 212 extends into the solution tank 210, and a helical blade 213 is wound around the first rotating shaft 212;

the solution tank 210 is used for placing nutrient solution, and the motor 211 drives the first rotating shaft 212 to rotate, so that the helical blades 213 stir the nutrient solution, and the nutrient solution is uniformly mixed. In this embodiment, when the helical blade 213 stirs the nutrient solution, the middle part of the nutrient solution turns upwards, so that the sediment at the bottom is further mixed into the nutrient solution at the upper layer, and the nutrient solution is more uniform.

Further, the stirring rod 214 is fixedly connected to the edge of the spiral blade 213, so that the efficiency of stirring the nutrient solution can be increased.

Further, the liquid injection member 220 includes a flexible tube 221 and a driving member 222, one end of the flexible tube 221 is communicated with the solution tank 210, and the other end of the flexible tube 221 is fixedly connected to the liquid distribution tube 230.

Driving piece 222 is including the arc holding tank 2221 and the second pivot 2222 of coaxial setting, the laminating of hose 221 one side is in the arc holding tank 2221, just hose 221 protrusion in arc holding tank 2221, the marginal fixedly connected with dwang 2223 more than two of second pivot 2222, the tip of dwang 2223 has and is used for the extrusion wheel 2224 of hose 221.

In this embodiment, the second rotating shaft 2222 drives the pressing wheel 2224 to move by rotating the shaft 2223, so as to press the flexible tube 221, thereby flowing the nutrient solution in the flexible tube 221. The second rotating shaft 212 rotates to one side, and the extractable solution tank 210 is injected into the liquid distribution pipe 230; the second rotating shaft 212 rotates in the opposite direction to transport the nutrient solution in the opposite direction.

The arc-shaped receiving groove 2221 for receiving and fixing the hose 221; further, the hose 221 and the liquid distribution pipe 230 are of an integrated structure, so that a connecting process of the hose 221 and the liquid distribution pipe is saved.

Further, the second rotating shaft 2222 is connected to the first rotating shaft 212 in a driving manner, for example, fixedly connected or connected through a bevel gear.

The motor drives the first rotating shaft 212 to rotate and stir the nutrient solution, and simultaneously, the first rotating shaft 212 can drive the second rotating shaft 2222 to rotate, thereby completing the liquid injection process.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a seed cultivation equipment that multiple seed of three-dimensional being convenient for was cultivated which characterized in that includes:

the supporting component (100) comprises a supporting plate (110), wherein a plurality of layers of supporting frames (120) are arranged on the supporting plate (110), a cultivating box (130) is arranged on each supporting frame (120), and a liquid injection pipe (140) is arranged above each cultivating box (130);

nutrient solution supply assembly (200), including a plurality of solution tanks (210), solution tank (210) lower extreme all communicates and annotates liquid piece (220), the exit end of annotating liquid piece (220) all communicates and has joined in marriage liquid pipe (230), a plurality of the export of joining in marriage liquid pipe (230) can communicate in same notes liquid pipe (140) or communicate respectively in a plurality of notes liquid pipe (140).

2. A seed growing apparatus for three-dimensionally facilitating growing of a plurality of seeds as recited in claim 1, further comprising:

the liquid injection pipe (140) is fixedly connected to the support plate (110);

the inlet end of the liquid injection pipe (140) is communicated with a plurality of branch pipes (141), the end parts of the branch pipes (141) are provided with first rubber plugs (142), and the first rubber plugs (142) are provided with first liquid inlet holes (143);

the liquid distribution pipe (230) is at least partially a bendable pipeline;

the outlet of the liquid distribution pipe (230) is communicated with a tapered pipe (231), and the tapered pipe (231) can be inserted into the first liquid inlet hole (143).

3. A three dimensional seed growing apparatus for facilitating multiple seed growing according to claim 2, wherein:

the liquid injection piece (220) can inject liquid and suck liquid;

one side of backup pad (110) has spout (111), spout (111) downside is provided with water pocket (112), the water inlet of water pocket (112) has second rubber buffer (113), second inlet (114) have on second rubber buffer (113), tapered pipe (231) can run through in second inlet (114), support frame (120) set up water pocket (112) upside.

4. A seed growing apparatus for three-dimensionally facilitating growing of a plurality of seeds as recited in claim 1, further comprising: the support frame (120) is rotatably connected with a rotary disc (150) through a rotary shaft, the rotary disc (150) is provided with an accommodating groove (151), and the cultivation box (130) is arranged in the accommodating groove (151);

a plurality of joint grooves (152) have been seted up to the marginal equidistance of carousel (150), fixedly connected with joint shell fragment (153) on support frame (120), one side card of joint shell fragment (153) is gone into in joint groove (152).

5. A three dimensional seed growing apparatus for facilitating multiple seed growing according to claim 4, wherein:

the support frame (120) is provided with a plurality of cultivation boxes (130);

the accommodating groove (151) is a plurality of coaxial annular grooves, and the cultivating box (130) is an annular box body corresponding to the shape and the size of the accommodating groove (151);

the cultivation box (130) is internally provided with a bearing plate (131), the bearing plate (131) is provided with a plurality of placing holes (1311), and the lower side of the bearing plate (131) is provided with a liquid storage layer (132) in an attaching mode.

6. A seed growing apparatus for three dimensional facilitating growing of a plurality of seeds as recited in claim 5, wherein:

a clamping block (133) is fixedly connected to the lower side of the bearing plate (131);

the joint has annular plate (134) between joint piece (133), annular plate (134) are last to have accommodation hole (135), stock solution layer (132) are fixed to be set up in accommodation hole (135).

7. A seed growing apparatus for three-dimensionally facilitating growing of a plurality of seeds as recited in claim 1, further comprising:

further comprising an illumination adjustment assembly (300);

the illumination adjusting assembly (300) comprises a lamp set (310), the lamp set (310) is arranged on the lower side of the support frame (120), and an illumination adjusting plate (320) is arranged on the lower side of the lamp set (310);

the illumination adjusting plate (320) comprises a light hole (321), and a movable light shielding plate (330) is arranged on the light hole (321).

8. A seed growing apparatus for three dimensional facilitating growing of a plurality of seeds as recited in claim 7, wherein:

the illumination adjusting plate (320) is a circular plate, and the light holes (321) are arranged on the illumination adjusting plate (320) at equal intervals;

the light shielding plate (330) comprises a central plate (331) and sub-plates (332), the central plate (331) is rotatably connected to the center of the illumination adjusting plate (320), the sub-plates (332) are equidistantly connected to the edge of the central plate (331), and the sub-plates (332) correspond to the light holes (321) one to one.

9. A seed growing apparatus for three-dimensionally facilitating growing of a plurality of seeds as recited in claim 1, further comprising:

the upper side of the solution tank (210) is fixedly connected with a motor (211), the output end of the motor (211) is fixedly connected with a first rotating shaft (212), the first rotating shaft (212) extends into the solution tank (210), and a spiral blade (213) is wound on the first rotating shaft (212).

10. A seed growing apparatus for three-dimensionally facilitating growing of a plurality of seeds as recited in claim 9, further comprising:

the liquid injection piece (220) comprises a hose (221) and a driving piece (222), and one end of the hose (221) is communicated with the solution tank (210);

drive piece (222) are including annular plate (134) and second pivot (2222) of coaxial setting, hose (221) set up the internal surface at annular plate (134), the edge of second pivot (2222) is provided with more than two dwangs, the tip of dwang has and is used for the extrusion wheel of hose (221), can laminate in on the extrusion wheel the internal surface of annular plate (134).

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