CN109526480B

CN109526480B - Full-automatic type seedling breeding device

Info

Publication number: CN109526480B
Application number: CN201910078413.4A
Authority: CN
Inventors: 不公告发明人
Original assignee: Binzhou Fuchuang Technology Service Co Ltd
Current assignee: Binzhou fuchuang Technology Service Co., Ltd
Priority date: 2019-01-28
Filing date: 2019-01-28
Publication date: 2020-12-08
Anticipated expiration: 2039-01-28
Also published as: CN109526480A

Abstract

The invention belongs to the technical field of seedling cultivation, and particularly relates to a full-automatic seedling cultivation device; comprises a cultivating box, a first feeding hole, a second feeding hole, a supporting seat and a controller; the first feeding hole and the second feeding hole are positioned at the top of the incubator; the bottom of the incubator is provided with a rotary cylinder, the piston end of the rotary cylinder penetrates through the incubator and extends into the incubator, and the piston end of the rotary cylinder is in threaded transmission with the input end; a rotating unit is arranged above the piston end of the rotary cylinder; a first stirring unit is arranged inside the upper part of the incubator, and a second stirring unit is arranged below the first stirring unit; according to the invention, the rotation unit, the first stirring unit and the second stirring unit are used in a matched manner, and the rotary cylinder is used as power, so that full-automatic cultivation of seedlings is realized, the amount of manual labor is reduced, and the quality of seedling cultivation is ensured.

Description

Full-automatic type seedling breeding device

Technical Field

The invention belongs to the technical field of seedling cultivation, and particularly relates to a full-automatic seedling cultivation device.

Background

Seedling cultivation, namely seedling cultivation, in a common way, the seedlings are strong and half harvested, so that the seedling cultivation is a very critical process in the growth process of crops, and in the technical field of forestry, the seedling cultivation is indispensable, but generally, the survival rate of the cultivated seedlings is low, and the seedlings with high survival rate cannot be cultivated. For example, the nutrient solution is directly added into the soil for cultivating the seedlings, if the nutrient solution is not enough, the root systems of the crops cannot absorb the nutrient solution well, and if the nutrient solution is too much, the nutrient solution is easy to accumulate in a seedling tray, so that the seedlings die; and the development and growth of seedlings can be seriously influenced due to insufficient oxygen.

Some seedling cultivation devices have been proposed in the prior art, for example, a chinese patent with application number 201620900158 discloses a seedling cultivation device, which comprises a cultivation frame, a nutrient solution delivery pipe, a nutrient solution auxiliary delivery pump, a nutrient solution return pipe, and a nutrient solution tank disposed below the cultivation frame, wherein the cultivation frame is composed of multiple layers of cultivation rooms, each layer of cultivation room is provided with a plant lamp, a spraying device, and an air supply pipe, the spraying device is connected with one end of the nutrient solution delivery pipe, the other end of the nutrient solution delivery pipe is connected to the liquid level below the nutrient solution tank, the nutrient solution delivery pipe is provided with a nutrient solution delivery pump, the bottom of each layer of cultivation room is provided with a nutrient solution return tank, one end of the nutrient solution return pipe is connected to the nutrient solution return tank at the bottom of each layer of cultivation room, the other end of the nutrient solution return pipe is connected to the nutrient solution tank, the nutrient solution return pipe is provided with a nutrient solution adjusting valve; sponge cultivating plates are laid in each layer of cultivating chamber.

According to the technical scheme, the seedling cultivation device can cultivate seedlings, but the plant lamp in the device cannot rotate, and due to the fact that the sizes of the leaves of the seedlings are different, some parts of the seedlings cannot be irradiated by the plant lamp, so that the seedlings are not uniformly grown, and the seedling cultivation quality is affected; meanwhile, the nutrient solution in the device is not stirred before being used, so that the nutrient substances in the nutrient solution can be precipitated, the seedlings can fully absorb the nutrient substances according to the method, and the seedlings die due to the fact that the nutrient substances are distributed uniformly on the seedlings too much, so that the technical scheme is limited.

Disclosure of Invention

In order to make up the defects of the prior art and solve the problems that the growth vigor of seedlings is not uniform and the seedlings cannot fully absorb nutrient solution in the seedling cultivation in the prior art; the invention provides a full-automatic seedling cultivation device.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention discloses a full-automatic seedling cultivation device which comprises a cultivation box, a first feeding hole, a second feeding hole, a supporting seat and a controller, wherein the first feeding hole is formed in the cultivation box; the controller is used for controlling the seedling cultivation device to work; the cultivation box is made of transparent materials; the first feeding hole and the second feeding hole are positioned at the top of the incubator and are used for introducing different kinds of nutrient solutions; the bottom of the incubator is provided with a rotary cylinder, the piston end of the rotary cylinder penetrates through the incubator and extends into the incubator, the piston end of the rotary cylinder is in threaded transmission with the input end, and the piston end rotates while moving up and down when the rotary cylinder works; a rotating unit is arranged above the piston end of the rotary cylinder and is used for driving the seedlings to rotate so as to increase the lighting rate of the seedlings; the rotating unit comprises a first air cylinder, a rotary table and a poking block; the bottom of the first cylinder is fixedly connected with the piston end of the rotary cylinder, the other end of the first cylinder is fixedly connected with the rotary disc, a cultivation box is arranged above the rotary disc, and the cultivation box is fixedly connected with the rotary disc through a locking module; the stirring block is fixedly connected with the side wall of the incubator and is made of soft materials; a fixing plate is fixedly connected above the cultivating box, and plant growth lamps are arranged on two sides below the fixing plate; a first stirring unit is arranged in the upper part of the incubator and is used for respectively stirring different kinds of nutrient solutions; wherein the content of the first and second substances,

the first stirring unit comprises a stirring drum, a shearing fork, a rotating drum and a rotating rod; the rotary drum is positioned inside the mixing drum, the rotary drum is symmetrically arranged by taking the central line of the incubator as a reference, the rotary drum is formed by welding a first drum and a second drum, an annular groove is formed in the rotary drum formed by welding the first drum and the second drum, and one end of the rotary drum is rotationally connected with the side wall of the mixing drum through a rotating shaft; the other end of the rotating cylinder is sleeved with a rotating rod, one end of the rotating rod extends into the annular groove and is fixedly connected with the annular piston plate, and the part of the rotating rod, which is contacted with the rotating cylinder, is in threaded transmission; an annular push plate is arranged at one end of the rotating rod, which is far away from the rotary drum, the end part of the annular push plate is in threaded transmission with the stirring drum, and one end of the rotating rod, which is far away from the rotary drum, is in rotating connection with the annular push plate; the shearing fork is positioned on two sides of the rotary drum, one end of the shearing fork is hinged with the annular push plate, a cleaning block is fixedly connected to the side wall of the shearing fork close to the mixing drum, and bristles are arranged on the cleaning block; the annular push plates and the mixing drum form a closed space for storing nutrient solution, and the adjacent annular push plates and the mixing drum form a closed space; when the turntable is in contact with the shifting block, the turntable moves downwards under the influence of the reaction force of the shifting block to compress the first air cylinder, gas discharged when the first air cylinder is compressed enters a closed space formed by the adjacent annular push plate and the stirring cylinder to move the annular push plate, the annular push plate rotates while moving to enable the shearing fork to rotate to stir the nutrient solution, when the annular push plate moves, the shearing fork props up to enable the bristles to be in contact with the side wall of the first stirring cylinder, a second stirring unit is arranged below the first stirring cylinder and used for stirring and mixing different types of mixed nutrient solutions; wherein the content of the first and second substances,

the second stirring unit comprises a stirring box and a second air cylinder, the stirring box consists of a first stirring box and a second stirring box, and the end part of the second stirring box is sleeved in the first stirring box; the second cylinder is positioned at the bottom of the stirring box, the output end of the second cylinder is fixedly connected with the stirring box, and the bottom of the second cylinder is fixedly connected with the fixing plate; a liquid outlet is arranged below the stirring cylinder, a one-way valve is arranged at the liquid outlet, and different types of nutrient solutions flow into the stirring box through the liquid outlet to be stirred and mixed; the middle part of the stirring box is provided with a hollow shaft, the end part of the hollow shaft is in threaded transmission with the fixed plate and the stirring box, stirring blades are arranged on the part of the hollow shaft positioned in the stirring box, a round hole is formed in the part of the hollow shaft positioned in the stirring box, and the part of the hollow shaft positioned outside the stirring box penetrates through the fixed plate and is connected with a spray head; when the annular piston plate moves in the annular groove, the compressed and exhausted gas enters the second cylinder to enable the output end of the second cylinder to move upwards, the second cylinder pushes the second stirring box to move upwards when moving upwards, the stirring blade is driven to stir the mixed nutrient solution by the rotation of the hollow shaft when the second stirring box moves, and the stirred nutrient solution flows into the spray head through the round hole in the hollow shaft; the rotary disc drives the cultivation box to rotate, the seedlings in the cultivation box are driven to rotate when the cultivation box rotates, each part of each seedling can be uniformly irradiated by the plant generation lamp in the rotation process of the seedling, the seedling growth speed is improved, the seedling can grow uniformly, meanwhile, through designing the first stirring unit and the second stirring unit, different types of nutrient solutions required by the seedling growth can be mixed and then are sprayed out through the spray head in a rotating mode, the sprayed nutrient solutions can be in uniform contact with the seedling, nutrient substances required by the seedling growth are guaranteed, meanwhile, seedling death caused by excessive nutrient solutions at a certain position of the seedling can not occur, through the matched use of the rotating unit, the first stirring unit and the second stirring unit, the manual labor amount in the seedling cultivation process is reduced, and meanwhile, the seedling cultivation quality is guaranteed.

Pouring one nutrient solution required by seedling growth from a first feeding hole, pouring another nutrient solution required by seedlings from a second feeding hole, starting a rotary cylinder, turning on a plant growth lamp, rotating a piston end of the rotary cylinder, and moving the piston end of the rotary cylinder upwards while rotating due to the threaded transmission of an input end of the piston end of the rotary cylinder, so that a rotary disc is driven to move upwards and rotate, the rotary disc rotates to enable the seedlings in a cultivation box to rotate, each part of the seedlings can be irradiated by the plant growth lamp in the rotation process of the seedlings, the growth vigor of each part of the seedlings is ensured to be the same, and the cultivation quality of the seedlings is improved; after the turntable moves upwards for a certain distance, the turntable moves downwards under the reaction force of the shifting block when being in contact with the shifting block, the first air cylinder compresses when the turntable moves downwards, gas discharged when the first air cylinder compresses enters a closed space formed by the adjacent annular push plate and the stirring cylinder so that the annular push plate moves towards the side wall of the incubator, and the annular push plate rotates while moving due to the threaded transmission of the annular push plate and the rotary cylinder, and is rotatably connected with the rotary rod, so that the rotary rod can be driven to extend into the rotary cylinder while the annular push plate moves and rotates, the shearing fork is driven to rotate while moving and rotating, the nutrient solution is stirred while the shearing fork rotates, nutrient substances in the nutrient solution can be uniformly dispersed, the seedlings can absorb nutrient substances in the nutrient solution more easily, and the shearing fork can be supported while rotating, so that the bristles are in contact with the side wall of the stirring cylinder, when the bristles are in contact with the side wall of the stirring drum, nutrients attached to the side wall of the stirring drum can be scraped, so that the waste of the nutrients is prevented; the annular push plate compresses the nutrient solution in the stirring cylinder when moving, so that the nutrient solution enters the stirring box through the liquid outlet, and different nutrient solutions are mixed in the stirring box; when the rotating rod moves towards the inside of the rotating drum, the annular piston plate compresses the annular piston plate and the gas in the annular groove to enable the gas to enter the second cylinder, the output end of the second cylinder extends out, the output end of the second cylinder drives the second stirring box to move upwards, and the second stirring box is in threaded transmission with the hollow shaft, so that the hollow shaft rotates while the second stirring box moves upwards, the stirring blades rotate to mix and stir different types of nutrient solutions, the second stirring box moves upwards while compressing the space between the first stirring box and the second stirring box, the mixed nutrient solution with different types is discharged through the round hole on the hollow shaft and then is sprayed out from the spray head in a rotating way, the nutrient solution sprayed out in the rotating way can be in uniform contact with the seedlings to provide nutrition for the seedlings, each part of the seedlings can absorb the nutrient solution, the nutrient solution is uniformly dispersed in the cultivation box, so that the seedling death caused by excessive nutrient solution of a certain part can be avoided; after the seedling contacts with the nutrient solution, revolving cylinder stop work and begin the reconversion, drive carousel antiport at revolving cylinder reconversion's in-process for every part on the seedling can be shone once more by the vegetation lamp.

Preferably, the cultivation box is divided into a first cultivation box and a second cultivation box by the cultivation plate, and the first cultivation box is used for placing soil and cultivating seedlings; the middle part of the second cultivating box is provided with an air duct, one end of the air duct is communicated with the first cultivating box, the other end of the air duct penetrates through the turntable, two sides of the part of the air duct, which is positioned in the second cultivating box, are fixedly connected with springs respectively, and one end of each spring, which is far away from the air duct, is fixedly connected with an impact block; convex bevel teeth are arranged below the culture plate; when the turntable rotates, centrifugal force is generated to enable the impact block to impact the convex bevel gear, so that soil of the first cultivating box is loosened; according to the invention, the impact block is driven to move by centrifugal force generated when the rotary disc rotates, and when the impact block moves, the impact block is contacted with the convex bevel gear to generate vibration, so that soil in the first cultivation box is loosened, the roots of seedlings in the first cultivation box can absorb oxygen to perform respiration, and the growth of the seedlings is facilitated.

Preferably, a fixing unit for fixing the cultivated seedlings is disposed at an outer side of the cultivating box; the fixing unit comprises a vertical plate, a cross rod and a clamping ring; the vertical plates are respectively arranged at two sides of the cultivation box and fixedly connected with the rotary disc; the cross rod is positioned above the vertical plate and is in sliding connection with the vertical plate; the clamping ring is sleeved on the seedlings, and the clamping ring is connected with the cross rod through a spring; the invention can fix the seedlings by designing the fixing unit, prevents the seedlings from being inclined in the generation process or the rotation process, and improves the cultivation quality of the seedlings.

Preferably, the clamping ring consists of a first clamping ring and a second clamping ring, the first clamping ring is connected with the second clamping ring in a sliding mode, the part, located in the second clamping ring, of the first clamping ring is connected with the second clamping ring through a spring, and the first clamping ring and the second clamping ring which are connected in a sliding mode do not affect the growth of seedlings while fixing the seedlings; according to the invention, the first snap ring and the second snap ring are in sliding connection, so that the snap ring can be enlarged along with the growth of seedlings in the seedling generation process, the snap ring can fix the seedlings under the condition of not influencing the growth vigor of the seedlings, and the seedling cultivation quality is further improved.

Preferably, a cavity is formed in the toggle block, and the cavity in the toggle block is communicated with the air duct; when the shifting block is contacted with the turntable, the cavity is compressed, and gas discharged by the cavity compression enters the first cultivation box through the gas guide pipe to provide oxygen for the root of the seedling; the invention provides oxygen for the roots of the seedlings through the gas discharged when the stirring block is compressed, and can ensure that the oxygen in the soil is always sufficient, so that the roots of the seedlings cannot be killed due to oxygen deficiency.

Preferably, a collecting cylinder is arranged below the rotary table, a filter disc is arranged in the collecting cylinder, filter holes are formed in the filter disc, the filter plate is connected with the bottom of the rotary table through a rigid rope, and the end part of the filter disc is in contact with the collecting cylinder; the rotary table drives the filter disc to move up and down when moving up and down, and the nutrient solution is filtered when the filter disc moves up and down; according to the invention, by designing the collecting cylinder and the filter disc, the nutrient solution which is sprayed out by the spray head and does not enter the cultivating box can be filtered, so that the nutrient solution can be conveniently recycled, and the utilization rate of resources is improved.

The filter disc is driven to move when the rotary disc moves along with the movement of the rotary disc, the nutrient solution which is sprayed out by the spray head and does not enter the culture box can be filtered by the culture box when the filter disc moves, and the filtered nutrient solution enters the collecting cylinder through the filtering holes to be collected, so that the secondary utilization of the nutrient solution is facilitated, and the utilization rate of resources is improved; along with the rotation of the turntable, the impact block in the second cultivation box moves due to centrifugal force and is contacted with the convex bevel gear, and the convex bevel gear generates vibration in the contact process of the impact block to loosen soil in the first cultivation box, so that roots of seedlings can absorb oxygen to perform respiration, and the growth of the seedlings is facilitated; and at the in-process that the seedling was cultivated, in order to prevent that the seedling from appearing crooked condition at the formation in-process or at the pivoted in-process, can fix the seedling through cup jointing the snap ring on the seedling, and the snap ring is by a snap ring and No. two snap ring sliding connection, the seedling is at the in-process that generates like this, the snap ring can be along with the growth of seedling and the grow, the snap ring can also fix the seedling under the condition that does not influence the seedling growth vigor, the quality of seedling cultivation has further been improved.

The invention has the following beneficial effects:

1. the invention relates to a full-automatic seedling cultivation device; the device uses through the cooperation of rotation unit, a stirring unit and No. two stirring unit units to use revolving cylinder as power, realized the full-automatic cultivation of seedling, when reducing the hand labor volume, guaranteed the quality that the seedling was cultivated.

2. According to the full-automatic seedling cultivation device, the rotating unit in the device can drive the seedlings to rotate when working, so that each part of the seedlings can be irradiated by a lamp for plant growth, the uniform growth of the seedlings is ensured, and the seedling cultivation quality is improved.

3. According to the full-automatic seedling cultivation device, the first stirring unit and the second stirring unit can be used for fully stirring and mixing the nutrient solution, so that the uniform distribution of nutrient substances in the nutrient solution is facilitated, the seedlings can absorb the nutrient substances in the nutrient solution to the greater extent, and the seedling cultivation quality is further improved.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is a schematic view of a snap ring according to the present invention;

in the figure: the cultivation box 1, the first feeding hole 2, the second feeding hole 21, the rotary cylinder 3, the rotating unit 4, the first cylinder 41, the rotary table 42, the shifting block 43, the cultivation box 44, the cultivation plate 441, the first cultivation box 442, the second cultivation box 443, the fixing plate 45, the plant growth lamp 46, the first stirring unit 5, the stirring barrel 51, the shearing fork 52, the cleaning block 521, the rotary drum 53, the first stirring barrel 531, the second stirring barrel 532, the rotary rod 54, the annular piston plate 55, the annular push plate 56, the second stirring unit 6, the stirring box 61, the first stirring box 611, the second stirring box 612, the second cylinder 62, the hollow shaft 63, the stirring blade 64, the spray head 65, the air guide pipe 7, the impact block 71, the convex conical tooth 72, the fixing unit 8, the vertical plate 81, the cross rod 82, the snap ring 83, the first snap ring 831, the second snap ring 832, the collection cylinder 9 and the filter disc 91.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, the fully automatic seedling cultivation device of the present invention comprises a cultivation box 1, a first feeding port 2, a second feeding port 21, a support seat and a controller; the controller is used for controlling the seedling cultivation device to work; the incubator 1 is made of transparent materials; the first feeding hole 2 and the second feeding hole 21 are positioned at the top of the incubator 1, and the first feeding hole 2 and the second feeding hole 21 are used for introducing different kinds of nutrient solutions; the bottom of the incubator 1 is provided with a rotary cylinder 3, the piston end of the rotary cylinder 3 penetrates through the incubator 1 and extends into the incubator 1, the piston end of the rotary cylinder 3 is in threaded transmission with the input end, and the piston end rotates while moving up and down when the rotary cylinder 3 works; a rotating unit 4 is arranged above the piston end of the rotating cylinder 3, and the rotating unit 4 is used for driving the seedlings to rotate so as to increase the lighting rate of the seedlings; the rotating unit 4 comprises a first air cylinder 41, a turntable 42 and a shifting block 43; the bottom of the first cylinder 41 is fixedly connected with the piston end of the rotary cylinder 3, the other end of the first cylinder is fixedly connected with the rotary disc 42, a cultivation box 44 is arranged above the rotary disc 42, and the cultivation box 44 is fixedly connected with the rotary disc 42 through a locking module; the shifting block 43 is fixedly connected with the side wall of the incubator 1, and the shifting block 43 is made of soft materials; a fixing plate 45 is fixedly connected above the cultivating box 44, and plant growth lamps 46 are arranged on two sides below the fixing plate 45; a first stirring unit 5 is arranged inside the upper part of the incubator 1, and the first stirring unit 5 is used for respectively stirring different types of nutrient solutions; wherein the content of the first and second substances,

the first stirring unit 5 comprises a stirring cylinder 51, a shearing fork 52, a rotary cylinder 53 and a rotary rod 54; the rotary drum 53 is positioned inside the stirring drum 51, the rotary drum 53 is symmetrically arranged by taking the central line of the incubator 1 as a reference, the rotary drum 53 is formed by welding a first number drum 531 and a second number drum 532, an annular groove is formed in the rotary drum 53 formed by welding the first number drum 531 and the second number drum 532, and one end of the rotary drum 53 is rotatably connected with the side wall of the stirring drum 51 through a rotating shaft; the other end of the rotating cylinder 53 is sleeved with a rotating rod 54, one end of the rotating rod 54 extends into the annular groove and is fixedly connected with an annular piston plate 55, and the part of the rotating rod 54, which is in contact with the rotating cylinder 53, is in threaded transmission; an annular push plate 56 is arranged at one end of the rotating rod 54, which is far away from the rotary drum 53, the end part of the annular push plate 56 is in threaded transmission with the stirring drum 51, and one end of the rotating rod 54, which is far away from the rotary drum 53, is in rotary connection with the annular push plate 56; the scissors 52 are positioned at two sides of the rotary drum 53, one end of the scissors 52 is hinged with the annular push plate 56, the scissors 52 are fixedly connected with a cleaning block 521 close to the side wall of the mixing drum 51, and bristles are arranged on the cleaning block 521; the annular push plate 56 and the mixing drum 51 form a closed space for storing nutrient solution, and the adjacent annular push plate 56 and the mixing drum 51 form a closed space; when the turntable 42 is in contact with the shifting block 43, the turntable 42 moves downwards under the influence of the reaction force of the shifting block 43 to compress the first air cylinder 41, when the first air cylinder 41 is compressed, discharged air enters a closed space formed by the adjacent annular push plate 56 and the stirring cylinder 51 to move the annular push plate 56, when the annular push plate 56 moves, the annular push plate 56 rotates to enable the shearing fork 52 to rotate to stir nutrient solution, when the annular push plate 56 moves, the shearing fork 52 is propped up to enable bristles to be in contact with the side wall of the first stirring cylinder 51, a second stirring unit 6 is arranged below the first stirring cylinder 51, and the second stirring unit 6 is used for stirring and mixing different types of mixed nutrient solution; wherein the content of the first and second substances,

the second stirring unit 6 comprises a stirring box 61 and a second air cylinder 62, the stirring box 61 comprises a first stirring box 611 and a second stirring box 612, and the end part of the second stirring box 612 is sleeved in the first stirring box 611; the second cylinder 62 is positioned at the bottom of the stirring box 61, the output end of the second cylinder 62 is fixedly connected with the stirring box 61, and the bottom of the second cylinder is fixedly connected with the fixed plate 45; a liquid outlet is arranged below the stirring cylinder 51, a one-way valve is arranged at the liquid outlet, and different types of nutrient solutions flow into the stirring box 61 through the liquid outlet to be stirred and mixed; a hollow shaft 63 is arranged in the middle of the stirring box 61, the end part of the hollow shaft 63 is in threaded transmission with the fixing plate 45 and the stirring box 61, stirring blades 64 are arranged on the part of the hollow shaft 63 located in the stirring box 61, a round hole is formed in the part of the hollow shaft 63 located in the stirring box 61, and a spray head 65 is connected to the part of the hollow shaft 63 located outside the stirring box 61 after penetrating through the fixing plate 45; when the annular piston plate 55 moves in the annular groove, exhausted gas is compressed and enters the second air cylinder 62, so that the output end of the second air cylinder 62 moves upwards, the second air cylinder 62 pushes the second stirring box 612 to move upwards when moving upwards, the hollow shaft 63 rotates when the second stirring box 612 moves, so that the stirring blades 64 stir the mixed nutrient solution, and the stirred nutrient solution flows into the spray head 65 through the circular hole in the hollow shaft 63; the invention drives the cultivating box 44 to rotate through the rotary disc 42, the seedling in the cultivating box 44 is driven to rotate when the cultivating box 44 rotates, each part of the seedling can be uniformly irradiated by the plant generating lamp in the rotating process of the seedling, the seedling growth speed is improved, and the growth of the seedling is uniform, meanwhile, by designing the first stirring unit 5 and the second stirring unit 6, different kinds of nutrient solutions required by seedling growth can be mixed and then are sprayed out through the rotating nozzle 65, the sprayed nutrient solutions can be uniformly contacted with the seedlings, the seedling death caused by excessive nutrient solutions at a certain part of the seedlings can be avoided while nutrient substances required by the seedling growth are ensured, through the cooperation of rotation unit 4, stirring unit 5 and No. two stirring unit 6, alleviateed the artificial amount of labour in the seedling cultivation process, also guaranteed the quality that the seedling was cultivated simultaneously.

Pouring one nutrient solution required by seedling growth from a first feeding hole 2, pouring another nutrient solution required by seedlings from a second feeding hole 21, starting the rotary cylinder 3, turning on the plant growth lamp 46, rotating the piston end of the rotary cylinder 3, and moving the piston end of the rotary cylinder 3 upwards while rotating due to the threaded transmission of the input end of the piston end of the rotary cylinder 3, so as to drive the turntable 42 to move upwards and rotate, the turntable 42 rotates to rotate the seedlings in the cultivation box 44, and each part of the seedlings can be irradiated by the plant growth lamp 46 in the rotation process of the seedlings, so that the growth vigor of each part of the seedlings is ensured to be the same, and the seedling cultivation quality is improved; after the turntable 42 moves upwards for a certain distance, the turntable 42 and the shifting block 43 are contacted and then move downwards under the reaction force of the shifting block 43, when the turntable 42 moves downwards, the first air cylinder 41 is compressed, when the first air cylinder 41 is compressed, the discharged air enters a closed space formed by the adjacent annular push plate 56 and the stirring drum 51, so that the annular push plate 56 moves towards the side wall of the incubator 1, because the annular push plate 56 and the rotating drum 53 are in threaded transmission, the annular push plate 56 rotates while moving, and the annular push plate 56 is rotationally connected with the rotating rod 54, so that the rotating rod 54 can be driven to extend into the rotating drum 53 while the annular push plate 56 moves and rotates, the annular push plate 56 drives the shearing forks 52 to rotate while moving and rotating, the shearing forks 52 stir the nutrient solution while rotating, so that the nutrient substances in the nutrient solution can be uniformly dispersed, and the seedlings can more easily absorb the nutrient substances in the nutrient solution, the shearing fork 52 rotates and is simultaneously supported, so that the bristles are in contact with the side wall of the stirring cylinder 51, and when the bristles are in contact with the side wall of the stirring cylinder 51, nutrients attached to the side wall of the stirring cylinder 51 can be scraped off, and the waste of the nutrients is prevented; when the annular push plate 56 moves, the nutrient solution in the stirring cylinder 51 is compressed, so that the nutrient solution enters the stirring box 61 through the liquid outlet, and different nutrient solutions are mixed in the stirring box 61; when the rotating rod 54 moves towards the rotating drum 53, the annular piston plate 55 compresses the annular piston plate 55 and the gas in the annular groove to enable the gas to enter the second cylinder 62, the output end of the second cylinder 62 extends to drive the second stirring box 612 to move upwards, and due to the threaded transmission between the second stirring box 612 and the hollow shaft 63, the hollow shaft 63 rotates while the second stirring box 612 moves upwards, so that the stirring blades 64 rotate to mix and stir different types of nutrient solution, the space between the first stirring box 611 and the second stirring box 612 is compressed while the second stirring box 612 moves upwards, so that the mixed different types of nutrient solution is discharged through the round hole on the hollow shaft 63 and then is rotationally sprayed out from the spray head 65, the rotationally sprayed nutrient solution can be in uniform contact with seedlings to provide nutrition for the seedlings, and each part of the seedlings can absorb the nutrient solution, the nutrient solution is uniformly dispersed in the cultivation box 44, so that the seedling death caused by excessive nutrient solution of a certain part can be avoided; after the seedling contacts with the nutrient solution, the rotary cylinder 3 stops working and starts to restore to the original state, and the rotary disc 42 is driven to rotate reversely in the process of restoring to the original state by the rotary cylinder 3, so that each part on the seedling can be irradiated by the plant growth lamp 46 once again.

As an embodiment of the present invention, the cultivating box 44 is divided into a first cultivating box 442 and a second cultivating box 443 by the cultivating plate 441, the first cultivating box 442 is used for placing soil and cultivating seedlings; the middle part of the second cultivating box 443 is provided with an air duct 7, one end of the air duct 7 is communicated with the first cultivating box 442, the other end of the air duct 7 penetrates through the turntable 42, two sides of the part of the air duct 7 in the second cultivating box 443 are respectively fixedly connected with a spring, and one end of the spring, which is far away from the air duct 7, is fixedly connected with an impact block 71; convex bevel teeth 72 are arranged below the culture plate 441; when the rotary disk 42 rotates, centrifugal force is generated, so that the impact block 71 impacts the convex conical teeth 72 to loosen the soil of the first cultivating box 442; according to the invention, the impact block 71 is driven to move by the centrifugal force generated when the turntable 42 rotates, and the impact block 71 is contacted with the convex bevel gear 72 to generate vibration when moving, so that the soil in the first cultivating box 442 is loosened, oxygen is favorably absorbed by the roots of seedlings in the first cultivating box 442, and the respiration effect is favorably realized, thereby being favorable for the growth of the seedlings.

As a specific embodiment of the present invention, a fixing unit 8 is disposed at an outer side of the cultivating box 44, the fixing unit 8 being for fixing the cultivated seedling; the fixing unit 8 comprises a vertical plate 81, a cross rod 82 and a clamping ring 83; the vertical plates 81 are respectively arranged at two sides of the cultivating box 44, and the vertical plates 81 are fixedly connected with the rotary disc 42; the cross rod 82 is positioned above the vertical plate 81, and the cross rod 82 is connected with the vertical plate 81 in a sliding manner; the snap ring 83 is sleeved on the seedlings, and the snap ring 83 is connected with the cross rod 82 through a spring; the invention can fix the seedlings by designing the fixing unit 8, prevent the seedlings from being inclined in the generation process or the rotation process and improve the cultivation quality of the seedlings.

As a specific embodiment of the present invention, the snap ring 83 is composed of a first snap ring 831 and a second snap ring 832, the first snap ring 831 is connected with the second snap ring 832 in a sliding manner, the part of the first snap ring 831 located in the second snap ring 832 is connected with the second snap ring 832 through a spring, and the sliding connection between the first snap ring 831 and the second snap ring 832 does not affect the growth of seedlings while fixing the seedlings; according to the invention, the first snap ring 831 and the second snap ring 832 are connected in a sliding manner, so that the snap ring 83 can be enlarged along with the growth of seedlings in the seedling generation process, the snap ring 83 can fix the seedlings under the condition of not influencing the growth vigor of the seedlings, and the seedling cultivation quality is further improved.

As a specific embodiment of the present invention, a cavity is formed inside the toggle block 43, and the cavity inside the toggle block 43 is communicated with the air duct 7; when the shifting block 43 is contacted with the turntable 42, the cavity is compressed, and gas exhausted by the cavity compression enters the first cultivation box 442 through the gas guide pipe 7 to provide oxygen for the root of the seedling; the invention supplies oxygen to the roots of the seedlings by the gas discharged when the poking block 43 is compressed, and can ensure that the oxygen in the soil is always sufficient, so the roots of the seedlings cannot be killed by oxygen deficiency.

As a specific embodiment of the present invention, a collecting cylinder 9 is disposed below the rotary table 42, a filter disc 91 is disposed in the collecting cylinder 9, filter holes are disposed on the filter disc 91, a filter plate is connected to the bottom of the rotary table 42 through a rigid rope, and an end of the filter disc 91 is in contact with the collecting cylinder 9; the rotary table 42 drives the filter disc 91 to move up and down when moving up and down, and the nutrient solution is filtered when the filter disc 91 moves up and down; according to the invention, by designing the collecting cylinder 9 and the filter disc 91, the nutrient solution which is sprayed by the spray head 65 and does not enter the cultivating box 44 can be filtered, so that the secondary utilization of the nutrient solution is facilitated, and the utilization rate of resources is improved.

With the movement of the turntable 42, the turntable 42 drives the filter disc 91 to move when moving, when the filter disc 91 moves, the nutrient solution which is sprayed by the spray head 65 and does not enter the culture box 44 can be filtered by the culture box 44, and the filtered nutrient solution enters the collecting cylinder 9 through the filtering holes to be collected, so that the secondary utilization of the nutrient solution is facilitated, and the utilization rate of resources is improved; with the rotation of the turntable 42, the impact block 71 in the second cultivation moves due to centrifugal force to contact with the convex bevel gear 72, and the convex bevel gear 72 generates vibration in the contact process of the impact block 71 to loosen soil in the first cultivation box 442, so that roots of seedlings can absorb oxygen to perform respiration, and the growth of the seedlings is facilitated; and in the in-process of seedling cultivation, in order to prevent that the seedling from appearing crooked condition at the formation in-process or at the pivoted in-process, can fix the seedling through cup jointing snap ring 83 on the seedling, and snap ring 83 is by snap ring 831 and No. two snap ring 832 sliding connection, the seedling is at the in-process that generates like this, snap ring 83 can be along with the growth of seedling and the grow, snap ring 83 can also fix the seedling under the condition that does not influence the seedling growth vigor, the quality of seedling cultivation has further been improved.

When the seedling cultivation device works, one nutrient solution required by seedling growth is poured from the first feeding hole 2, the other nutrient solution required by seedlings is poured from the second feeding hole 21, the rotary cylinder 3 is started, the plant growth lamp 46 is turned on, the piston end of the rotary cylinder 3 rotates, and due to the fact that the input end of the piston end of the rotary cylinder 3 is in threaded transmission, the piston end of the rotary cylinder 3 rotates and moves upwards at the same time, so that the rotary disc 42 is driven to move upwards and rotate, the rotary disc 42 rotates to enable the seedlings in the cultivation box 44 to rotate, each part of the seedlings can be irradiated by the plant growth lamp 46 in the rotation process of the seedlings, the growth vigor of each part of the seedlings is guaranteed to be the same, and the seedling cultivation quality is improved; after the turntable 42 moves upwards for a certain distance, the turntable 42 and the shifting block 43 are contacted and then move downwards under the reaction force of the shifting block 43, when the turntable 42 moves downwards, the first air cylinder 41 is compressed, when the first air cylinder 41 is compressed, the discharged air enters a closed space formed by the adjacent annular push plate 56 and the stirring drum 51, so that the annular push plate 56 moves towards the side wall of the incubator 1, because the annular push plate 56 and the rotating drum 53 are in threaded transmission, the annular push plate 56 rotates while moving, and the annular push plate 56 is rotationally connected with the rotating rod 54, so that the rotating rod 54 can be driven to extend into the rotating drum 53 while the annular push plate 56 moves and rotates, the annular push plate 56 drives the shearing forks 52 to rotate while moving and rotating, the shearing forks 52 stir the nutrient solution while rotating, so that the nutrient substances in the nutrient solution can be uniformly dispersed, and the seedlings can more easily absorb the nutrient substances in the nutrient solution, the shearing fork 52 rotates and is simultaneously supported, so that the bristles are in contact with the side wall of the stirring cylinder 51, and when the bristles are in contact with the side wall of the stirring cylinder 51, nutrients attached to the side wall of the stirring cylinder 51 can be scraped off, and the waste of the nutrients is prevented; when the annular push plate 56 moves, the nutrient solution in the stirring cylinder 51 is compressed, so that the nutrient solution enters the stirring box 61 through the liquid outlet, and different nutrient solutions are mixed in the stirring box 61; when the rotating rod 54 moves towards the rotating drum 53, the annular piston plate 55 compresses the annular piston plate 55 and the gas in the annular groove to enable the gas to enter the second cylinder 62, the output end of the second cylinder 62 extends to drive the second stirring box 612 to move upwards, and due to the threaded transmission between the second stirring box 612 and the hollow shaft 63, the hollow shaft 63 rotates while the second stirring box 612 moves upwards, so that the stirring blades 64 rotate to mix and stir different types of nutrient solution, the space between the first stirring box 611 and the second stirring box 612 is compressed while the second stirring box 612 moves upwards, so that the mixed different types of nutrient solution is discharged through the round hole on the hollow shaft 63 and then is rotationally sprayed out from the spray head 65, the rotationally sprayed nutrient solution can be in uniform contact with seedlings to provide nutrition for the seedlings, and each part of the seedlings can absorb the nutrient solution, the nutrient solution is uniformly dispersed in the cultivation box 44, so that the seedling death caused by excessive nutrient solution of a certain part can be avoided; after the seedlings contact with the nutrient solution, the rotary cylinder 3 stops working and starts to restore the original state, and the rotary disc 42 is driven to rotate reversely in the process of restoring the original state of the rotary cylinder 3, so that each part on the seedlings can be irradiated by the plant growth lamp 46 once again; with the movement of the turntable 42, the turntable 42 drives the filter disc 91 to move when moving, when the filter disc 91 moves, the nutrient solution which is sprayed by the spray head 65 and does not enter the culture box 44 can be filtered by the culture box 44, and the filtered nutrient solution enters the collecting cylinder 9 through the filtering holes to be collected, so that the secondary utilization of the nutrient solution is facilitated, and the utilization rate of resources is improved; with the rotation of the turntable 42, the impact block 71 in the second cultivation moves due to centrifugal force to contact with the convex bevel gear 72, and the convex bevel gear 72 generates vibration in the contact process of the impact block 71 to loosen soil in the first cultivation box 442, so that roots of seedlings can absorb oxygen to perform respiration, and the growth of the seedlings is facilitated; and in the in-process of seedling cultivation, in order to prevent that the seedling from appearing crooked condition at the formation in-process or at the pivoted in-process, can fix the seedling through cup jointing snap ring 83 on the seedling, and snap ring 83 is by snap ring 831 and No. two snap ring 832 sliding connection, the seedling is at the in-process that generates like this, snap ring 83 can be along with the growth of seedling and the grow, snap ring 83 can also fix the seedling under the condition that does not influence the seedling growth vigor, the quality of seedling cultivation has further been improved.

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

Claims

1. The utility model provides a full-automatic type seedling breeding device which characterized in that: comprises a cultivating box (1), a first feeding hole (2), a second feeding hole (21), a supporting seat and a controller; the controller is used for controlling the seedling cultivation device to work; the incubator (1) is made of transparent materials; the first feeding hole (2) and the second feeding hole (21) are positioned at the top of the incubator (1), and the first feeding hole (2) and the second feeding hole (21) are used for introducing different kinds of nutrient solutions; the bottom of the incubator (1) is provided with a rotary cylinder (3), the piston end of the rotary cylinder (3) penetrates through the incubator (1) and extends into the incubator (1), the piston end of the rotary cylinder (3) is in threaded transmission with the input end, and the piston end rotates while moving up and down when the rotary cylinder (3) works; a rotating unit (4) is arranged above the piston end of the rotating cylinder (3), and the rotating unit (4) is used for driving the seedlings to rotate so as to increase the lighting rate of the seedlings; the rotating unit (4) comprises a first air cylinder (41), a rotary table (42) and a toggle block (43); the bottom of the first cylinder (41) is fixedly connected with the piston end of the rotary cylinder (3), the other end of the first cylinder is fixedly connected with the rotary disc (42), a cultivation box (44) is arranged above the rotary disc (42), and the cultivation box (44) is fixedly connected with the rotary disc (42) through a locking module; the stirring block (43) is fixedly connected with the side wall of the incubator (1), and the stirring block (43) is made of soft materials; a fixing plate (45) is fixedly connected above the cultivation box (44), and plant growth lamps (46) are arranged on two sides below the fixing plate (45); a first stirring unit (5) is arranged inside the upper part of the incubator (1), and the first stirring unit (5) is used for respectively stirring different kinds of nutrient solutions; wherein the content of the first and second substances,

the first stirring unit (5) comprises a stirring cylinder (51), a shearing fork (52), a rotary cylinder (53) and a rotary rod (54); the rotary drum (53) is positioned in the stirring drum (51), the rotary drum (53) is symmetrically arranged by taking the central line of the incubator (1) as a reference, the rotary drum (53) is formed by welding a first number drum (531) and a second number drum (532), an annular groove is formed in the rotary drum (53) formed by welding the first number drum (531) and the second number drum (532), and one end of the rotary drum (53) is rotatably connected with the side wall of the stirring drum (51) through a rotating shaft; the other end of the rotating cylinder (53) is sleeved with a rotating rod (54), one end of the rotating rod (54) extends into the annular groove and is fixedly connected with an annular piston plate (55), and the part of the rotating rod (54) which is contacted with the rotating cylinder (53) is in threaded transmission; an annular push plate (56) is arranged at one end of the rotating rod (54) far away from the rotating drum (53), the end part of the annular push plate (56) is in threaded transmission with the stirring drum (51), and one end of the rotating rod (54) far away from the rotating drum (53) is rotationally connected with the annular push plate (56); the shear fork (52) is positioned on two sides of the rotary drum (53), one end of the shear fork (52) is hinged with the annular push plate (56), a cleaning block (521) is fixedly connected to the side wall of the shear fork (52) close to the stirring drum (51), and bristles are arranged on the cleaning block (521); the annular push plate (56) and the mixing drum (51) form a closed space for storing nutrient solution, and the adjacent annular push plate (56) and the mixing drum (51) form a closed space; when the rotary disc (42) is in contact with the shifting block (43), the rotary disc (42) moves downwards under the influence of the reaction force of the shifting block (43) to compress the first air cylinder (41), discharged air enters a closed space formed by the adjacent annular push plate (56) and the stirring cylinder (51) when the first air cylinder (41) is compressed to move the annular push plate (56), the annular push plate (56) rotates while moving to enable the shearing fork (52) to rotate to stir nutrient solution, the shearing fork (52) is propped up when the annular push plate (56) moves to enable bristles to be in contact with the side wall of the first stirring cylinder (51), a second stirring unit (6) is arranged below the first stirring cylinder (51), and the second stirring unit (6) is used for stirring and mixing different types of mixed nutrient solutions; wherein the content of the first and second substances,

the second stirring unit (6) comprises a stirring box (61) and a second air cylinder (62), the stirring box (61) consists of a first stirring box (611) and a second stirring box (612), and the end part of the second stirring box (612) is sleeved in the first stirring box (611); the second cylinder (62) is positioned at the bottom of the stirring box (61), the output end of the second cylinder (62) is fixedly connected with the stirring box (61), and the bottom of the second cylinder is fixedly connected with the fixing plate (45); a liquid outlet is arranged below the stirring cylinder (51), a one-way valve is arranged at the liquid outlet, and different types of nutrient solutions flow into the stirring box (61) through the liquid outlet to be stirred and mixed; a hollow shaft (63) is arranged in the middle of the stirring box (61), the end of the hollow shaft (63) is in threaded transmission with the fixing plate (45) and the stirring box (61), stirring blades (64) are arranged on the part of the hollow shaft (63) located in the stirring box (61), a round hole is formed in the part of the hollow shaft (63) located in the stirring box (61), and a spray head (65) is connected to the part of the hollow shaft (63) located on the outer side of the stirring box (61) after penetrating through the fixing plate (45); when the annular piston plate (55) moves in the annular groove, exhausted gas is compressed and enters the second air cylinder (62) to enable the output end of the second air cylinder (62) to move upwards, the second air cylinder (62) pushes the second stirring box (612) to move upwards when moving upwards, the stirring blade (64) is used for stirring the mixed nutrient solution when the second stirring box (612) moves, and the stirring blade (64) is used for stirring the mixed nutrient solution, and the stirred nutrient solution flows into the spray head (65) through the round hole in the hollow shaft (63); the rotary disc (42) drives the cultivation box (44) to rotate, the cultivation box (44) drives the seedlings in the cultivation box (44) to rotate when rotating, each part of the seedlings can be uniformly irradiated by the plant generation lamp in the rotating process, the growth of the seedlings is uniform while the seedling generation speed is improved, meanwhile, through designing the first stirring unit (5) and the second stirring unit (6), different types of nutrient solutions required by the growth of the seedlings can be mixed and then rotationally sprayed out through the spray head (65), the sprayed nutrient solution can be uniformly contacted with the seedlings, nutrient substances required by the growth of the seedlings can not be generated, certain parts of the seedlings cannot be killed due to too much nutrient solution, through the matched use of the rotating unit (4), the first stirring unit (5) and the second stirring unit (6), the artificial labor amount in the seedling cultivation process is reduced, meanwhile, the quality of seedling cultivation is ensured.

2. The fully automatic seedling culture device as claimed in claim 1, wherein: the cultivation box (44) is divided into a first cultivation box (442) and a second cultivation box (443) by a cultivation plate (441), the first cultivation box (442) is used for placing soil and cultivating seedlings; the middle part of the second cultivation box (443) is provided with an air duct (7), one end of the air duct (7) is communicated with the first cultivation box (442), the other end of the air duct penetrates through the turntable (42), two sides of the part of the air duct (7) in the second cultivation box (443) are respectively fixedly connected with a spring, and one end of the spring, which is far away from the air duct (7), is fixedly connected with an impact block (71); convex conical teeth (72) are arranged below the culture plate (441); when the rotary disc (42) rotates, centrifugal force is generated, so that the impact block (71) impacts the convex conical teeth (72) to loosen soil of the first cultivation box (442).

3. The fully automatic seedling culture device as claimed in claim 2, wherein: a fixing unit (8) is arranged at the outer side of the cultivating box (44), and the fixing unit (8) is used for fixing the cultivated seedlings; the fixing unit (8) comprises a vertical plate (81), a cross rod (82) and a clamping ring (83); the vertical plates (81) are respectively arranged at two sides of the cultivation box (44), and the vertical plates (81) are fixedly connected with the rotary disc (42); the cross rod (82) is positioned above the vertical plate (81), and the cross rod (82) is in sliding connection with the vertical plate (81); the clamping ring (83) is sleeved on the seedling, and the clamping ring (83) is connected with the cross rod (82) through a spring.

4. The fully automatic seedling culture device as claimed in claim 3, wherein: snap ring (83) comprise snap ring (831) and No. two snap rings (832), sliding connection between snap ring (831) and No. two snap rings (832), and the part that snap ring (831) are located No. two snap rings (832) passes through the spring to be connected with No. two snap rings (832), and sliding connection's snap ring (831) and No. two snap rings (832) do not influence the growth of seedling when fixed seedling.

5. The fully automatic seedling culture device as claimed in claim 1, wherein: a cavity is formed in the poking block (43), and the cavity in the poking block (43) is communicated with the air duct (7); when the poking block (43) is contacted with the turntable (42), the cavity is compressed, and gas exhausted by the cavity compression enters the first cultivation box (442) through the air duct (7) to provide oxygen for the root of the seedling.

6. The fully automatic seedling culture device as claimed in claim 5, wherein: a collecting cylinder (9) is arranged below the rotary table (42), a filter disc (91) is arranged in the collecting cylinder (9), filter holes are formed in the filter disc (91), the filter plate is connected with the bottom of the rotary table (42) through a rigid rope, and the end part of the filter disc (91) is in contact with the collecting cylinder (9); the rotary disc (42) drives the filter disc (91) to move up and down when moving up and down, and the filter disc (91) filters the nutrient solution when moving up and down.