CN216820968U - Strawberry seedling growing system - Google Patents

Strawberry seedling growing system Download PDF

Info

Publication number
CN216820968U
CN216820968U CN202123094122.6U CN202123094122U CN216820968U CN 216820968 U CN216820968 U CN 216820968U CN 202123094122 U CN202123094122 U CN 202123094122U CN 216820968 U CN216820968 U CN 216820968U
Authority
CN
China
Prior art keywords
automatic
cylinder
frame
germination
adapter
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN202123094122.6U
Other languages
Chinese (zh)
Inventor
杨元龙
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fengjie Yuanlong Fruit Planting Professional Cooperative
Original Assignee
Fengjie Yuanlong Fruit Planting Professional Cooperative
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Fengjie Yuanlong Fruit Planting Professional Cooperative filed Critical Fengjie Yuanlong Fruit Planting Professional Cooperative
Priority to CN202123094122.6U priority Critical patent/CN216820968U/en
Application granted granted Critical
Publication of CN216820968U publication Critical patent/CN216820968U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Sowing (AREA)

Abstract

The utility model discloses a strawberry seedling growing system, including seed soaking groove, vernalization case and automatic sowing mechanism, the upper portion of seed soaking groove is provided with edible alkaline solution feed liquor pipeline, compound enzyme feed liquor pipeline and clear water feed liquor pipeline, edible alkaline solution gets into the pipeline and links to each other with the edible alkaline solution storage tank, compound enzyme feed liquor pipeline links to each other with compound enzyme solution storage tank, all be provided with pump, flowmeter and automatic control valve on edible alkaline solution gets into pipeline and the compound enzyme feed liquor pipeline, the tank bottom of seed soaking groove is provided with the material export, the below of material export is provided with the conveyer, there is the vernalization dish on the conveyer.

Description

Strawberry seedling system
Technical Field
The utility model relates to a strawberry seedling growing system belongs to intelligent agriculture field.
Background
Strawberry is delicious, red and tender, has juicy pulp, is sour, sweet and delicious, and has special and strong fruit fragrance. The strawberry is rich in organic acid, vitamins and mineral elements, has good health care function, and can improve immunity, expel toxin, beautify face, protect heart and cerebral vessels, protect liver and improve eyesight.
The strawberry seedling raising method comprises the steps of seed soaking, seed softening, seed germination accelerating and seed sowing. Soaking seeds in edible alkali solution, cleaning with clear water, adding complex enzyme for softening, cleaning with clear water, placing in a germination accelerating box for accelerating germination, after accelerating germination for 3-4 days, obtaining germinating seeds, sowing the seeds in a planting substrate, covering with plant ash, watering, germinating, and performing later seedling management.
At present, strawberry seeding is realized by manual seeding, time and labor are wasted, efficiency is low, and industrial efficient production cannot be realized.
SUMMERY OF THE UTILITY MODEL
To the technical problem, an object of the utility model is to provide a strawberry seedling growing system, it is efficient, reduce labour cost.
In order to realize the purpose, the technical scheme of the utility model is that: a strawberry seedling growing system is characterized in that: including seed soaking groove, vernalization case and automatic sowing mechanism, the upper portion of seed soaking groove is provided with edible alkaline solution feed liquor pipeline, compound enzyme feed liquor pipeline and clear water feed liquor pipeline, edible alkaline solution gets into the pipeline and links to each other with the edible alkaline solution storage tank, compound enzyme feed liquor pipeline links to each other with compound enzyme solution storage tank, all be provided with pump, flowmeter and automatic control valve on edible alkaline solution gets into pipeline and the compound enzyme feed liquor pipeline, the tank bottom of seed soaking groove is provided with the material export, the below of material export is provided with the conveyer, there is the vernalization dish on the conveyer, the dish bottom of vernalization dish has the hole of permeating water, the below of conveyer is provided with the wet return tank, and the material that comes out from seed soaking groove gets into the vernalization dish, and water flows to the wet return tank through the hole on the vernalization dish, the tank bottom of seed soaking groove still is provided with edible alkaline solution recovery pipeline, A complex enzyme solution recovery pipeline and a clear water discharge pipeline, wherein the edible alkali solution recovery pipeline is connected with an edible alkali solution storage tank, the complex enzyme solution recovery pipeline is connected with a complex enzyme solution storage tank, a heating device and a temperature sensor are arranged in the edible alkali solution storage tank, an automatic plate feeding device is arranged at the starting end of the conveyor, is used for placing the germination accelerating trays on a conveyor one by one, an automatic control valve is arranged on the material outlet, a first proximity switch is arranged on the conveyor, the first proximity switch is positioned below a material outlet of the seed soaking tank, a material homogenizing device is also arranged on the frame of the conveyor, the material homogenizing device comprises a first cylinder and a material homogenizing rake connected to a piston rod of the first cylinder, softened seeds in the germination accelerating disc are uniformly paved in the germination accelerating disc through the material homogenizing rake, a mechanical arm is arranged beside the conveyor and is used for placing the germination accelerating tray filled with the softened seeds into a germination accelerating box;
the automatic seeding mechanism comprises a seeding conveying line, a cup feeding device for a planting cup, an automatic loading device for planting matrix, an automatic seeding device for pregermination seeds, an automatic loading device for plant ash and a watering device are sequentially arranged on the seeding conveying line, and a mechanical arm at the tail end of the seeding conveying line is used for placing the planted cup which is sowed on a strawberry planting frame. The strawberry planting frame is a vertical frame, and in the prior art, a plurality of planting cups can be placed on one planting frame, and the planting cups are placed on the planting frame layer by layer.
In the scheme, the method comprises the following steps: the automatic tray feeding device comprises a germination tray placing platform used for placing a germination tray, the placing platform is arranged at a position close to the starting end of the conveyor, a linear motion guide rail is arranged above the starting end of the conveyor and extends to the top of the germination tray placing platform, a carriage is mounted on the linear motion guide rail, a second air cylinder is mounted on the carriage, a piston rod of the second air cylinder is connected with the center of the suction tray frame, a vacuum suction disc is arranged on the lower side of the suction tray frame, and the germination tray is sucked by the vacuum suction disc and placed on the conveyor.
In the scheme, the method comprises the following steps: guide cylinders are arranged at four corners of the upper side of the suction disc frame, guide rods are arranged on the dragging plate corresponding to the guide cylinders, and the guide rods penetrate into the guide cylinders. The function of guiding is achieved.
In the scheme, the method comprises the following steps: the cup feeding device for the planting cups comprises a placing frame for placing the planting cups, the stacked planting cups are placed in the placing frame, a linear motion guide rail is arranged above the starting end of the seeding conveying line and extends to the position above the placing frame, a dragging plate is mounted on the linear motion guide rail, a third air cylinder is mounted on the dragging plate, a piston rod of the third air cylinder is connected with the center of a suction disc frame, a vacuum suction disc is arranged on the lower side of the suction disc frame, and the planting cups are sucked by the vacuum suction disc and placed on the seeding conveying line.
In the scheme, the method comprises the following steps: still including placing the frame transfer chain, it sets up to the ground wire to place the frame transfer chain.
In the scheme, the method comprises the following steps: the automatic plant substrate charging device and the automatic plant ash charging device are identical in structure and comprise hoppers, the bottoms of the hoppers are designed to be conical, the bottom ends of the hoppers are respectively provided with a discharging cylinder, a metering discharging device is arranged below the discharging cylinder and comprises an adapter, the adapter is of a convex structure, the center of the adapter is provided with a discharging hole with an axis moving up and down, the discharging cylinder is inserted into the discharging hole, the lower bottom surface of the adapter is fixed on a discharging carriage, the discharging carriage comprises two parallel sliding rails, the tails of the two sliding rails are connected through a vertical baffle, the vertical baffle is positioned on the lower side of the sliding rails, the lower bottom surface of the adapter is fixed between the upper sides of the two sliding rails, the lower side of one sliding rail is provided with an L-shaped placing frame formed by connecting a vertical plate and a transverse plate, and the transverse plate of the L-shaped placing frame is positioned below the adapter, the gauge is characterized in that the striker plate is connected between two slide rails in a sliding manner, the length of the striker plate is matched with that of the slide rails, a material receiving port is arranged at the front part of the striker plate, a measuring material receiving cylinder is arranged on the material receiving port, the cylinder bottom of the measuring material receiving cylinder is also opened, a cover plate is hinged to the cylinder bottom of the measuring material receiving cylinder, the rear side of the cover plate is arranged on a hinged support lug extending outwards, a hinged hole is arranged on the hinged support lug, a hinged support lug is correspondingly arranged at the lower part of the side wall of the measuring material receiving cylinder, the hinged support lug of the cover plate is hinged to the hinged support lug on the side wall of the measuring material receiving cylinder through a rotating pin, the measuring material receiving cylinder can be just positioned below the adapter, when the measuring material receiving cylinder is positioned below the adapter, the cover plate just abuts against the upper side of the transverse plate of the L-shaped placing frame, a vertically extending support lug is arranged at the lower side of the striker plate, and the support lug is positioned behind the measuring material receiving cylinder, the support lug is connected with a piston rod of the fourth cylinder, the baffle plate is controlled to move on the discharging sliding frame through the cylinder, when the seed cup is positioned below the automatic planting matrix feeding device and the automatic plant ash feeding device, the fourth cylinder controls the baffle plate to slide forwards, the metering material receiving cylinder moves forwards, when the cover plate leaves a transverse plate of the L-shaped placing frame, the cover plate is opened, the materials in the metering material receiving cylinder fall into the planting cup, and at the moment, the rear part of the baffle plate is positioned below the adapter and used for blocking the materials and avoiding the materials from continuing to fall; then the fourth cylinder controls the striker plate to slide backwards, the cover plate seals the lower side of the metering material receiving barrel under the action of the transverse plate of the L-shaped placing frame, and the metering material receiving barrel is in butt joint with the adapter for discharging. Therefore, the amount of the planting substrate and the amount of the plant ash placed in the planting cup can be accurately measured, and the planting substrate and the plant ash can be automatically placed.
In the scheme, the method comprises the following steps: the volume of the metering material receiving barrel of the automatic plant ash charging device is smaller than that of the automatic planting matrix charging device.
In the scheme, the method comprises the following steps: be provided with the internal thread in the adapter, the feed cylinder is provided with the external screw thread, feed cylinder threaded connection is in the adapter down. The taking and the placing are convenient.
In the scheme, the method comprises the following steps: the automatic germination seed sowing device is identical to the automatic planting substrate feeding device in structure, the inner diameter of a lower charging barrel of the automatic germination seed sowing device is matched with the size of germination seeds, and 2-3 seeds can be accommodated in a metering charging barrel of the automatic germination seed sowing device. Thus, the amount of pregerminated seeds sown at each time is guaranteed to be 2-3.
In the scheme, the method comprises the following steps: the automatic seeding device for the germinating seeds is close to the germinating box, and after germination is completed, the germinating disc in the germinating box is taken out through the mechanical arm and then poured into the hopper.
Has the advantages that: the utility model discloses a strawberry seedling system can realize that the factory automation of strawberry is sowed and is grown seedlings, reduces workman's labour, raises the efficiency.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is the layout schematic diagram of the planting soaking tank, the germination accelerating box and the conveyor of the utility model.
Fig. 3 is a schematic view of an automatic sowing mechanism.
Fig. 4 is a structural schematic diagram of an automatic planting matrix charging device.
FIG. 5 is a top view of the feeding carriage.
FIG. 6 is a side view of a discharge carriage.
Fig. 7 is an enlarged view of a portion a in fig. 4.
Detailed Description
The invention will be further described by way of examples with reference to the accompanying drawings:
example 1, as shown in fig. 1 to 7, a strawberry seedling growing system includes a seed soaking tank 1, a germination accelerating box 2, an automatic sowing mechanism, and a strawberry cultivation shelf.
The bottom of the seed soaking tank 1 is preferably designed to be conical, the material is conveniently discharged, an edible alkali solution liquid inlet pipeline, a compound enzyme liquid inlet pipeline and a clear water liquid inlet pipeline are arranged at the upper part of the seed soaking tank 1, an edible alkali solution inlet pipeline is connected with an edible alkali solution storage tank 3, the compound enzyme liquid inlet pipeline is connected with a compound enzyme solution storage tank 104, pumps, flow meters and automatic control valves are arranged on the edible alkali solution inlet pipeline and the compound enzyme liquid inlet pipeline, a material outlet is arranged at the bottom of the seed soaking tank 1, a conveyor 4 is arranged below the material outlet, a germination accelerating disc 5 is arranged on the conveyor 4, water permeable holes are formed in the bottom of the germination accelerating disc 5, a water return tank 6 is arranged below the conveyor 4, materials coming out of the seed soaking tank 1 enter the germination accelerating disc 5, and water flows into the water return tank 6 through the water permeable holes in the germination accelerating disc 5. An edible alkali solution recovery pipeline 101, a complex enzyme solution recovery pipeline 103 and a clear water discharge pipeline 102 are further arranged at the bottom of the seed soaking tank 1, and the edible alkali solution recovery pipeline 101 is connected with the edible alkali solution storage tank 3. The complex enzyme solution recovery pipeline 103 is connected with a complex enzyme solution storage tank 104, and a heating device and a temperature sensor are arranged in the edible alkali solution storage tank 3. The initiating terminal of conveyer 4 is provided with automatic hanging wall device for put germinating disk on conveyer 4 one by one, is provided with automatic control valve on the material export of seed soaking groove 1, is provided with first proximity switch on conveyer 4, and this first proximity switch is located the below of the material export of seed soaking groove 1.
The preferred automatic tray feeding device comprises a germination tray placing platform 7 for placing a germination tray, the placing platform 7 is arranged at a position close to the starting end of the conveyor 4, a linear motion guide rail 8 is arranged above the starting end of the conveyor 4, and the linear motion guide rail 8 is arranged on the side face of the rack of the conveyor 4 through a guide rail frame. The linear motion guide rail 8 extends to the upper part of the germination disk placing platform 7, a carriage 9 is slidably mounted on the linear motion guide rail 8, the carriage 9 is controlled by a driving device to do linear motion on the linear motion guide rail 8, and the driving device can be an air cylinder or a linear motion driving device such as an electric cylinder. A second cylinder 10 is arranged on the carriage 9, a piston rod of the second cylinder 10 is connected with the center of a suction disc frame 11, a vacuum suction disc 12 is arranged on the lower side of the suction disc frame, and the germination accelerating disc 5 is sucked and placed on the conveyor 4 through the vacuum suction disc 12.
Four corners of the upper side of the suction cup frame 11 are provided with guide cylinders 13, the dragging plate 9 is provided with guide rods corresponding to the guide cylinders 12, and the guide rods penetrate into the guide cylinders 13.
Of course, the automatic tray loading device can also select other mechanisms capable of automatically placing the germination trays on the conveyor.
Still be provided with refining device in conveyer 4's the frame, this refining device includes first cylinder 14 and connects the refining harrow 15 on first cylinder piston rod, refining harrow 15 moves along conveyer 4's width direction through the control of first cylinder 14, let the interior softening seed of germinating disc 5 evenly spread in germinating disc 5 through refining harrow 15, conveyer 4 is other to be provided with arm 16 and to be equipped with the germinating disc 5 of softening seed and put into germinating box 2, the structure of arm is prior art, do not do the perusal here. The refining device can also be in other structural forms.
The automatic softening, soaking and germination accelerating of strawberry seeds are realized through the structure. The softening is carried out by soaking in edible alkali solution, after soaking, the edible alkali solution is recovered from an alkali solution recovery pipeline 101 to an edible alkali solution storage tank 3 for continuous use, then clear water is added for cleaning, then the compound enzyme solution is added for softening, most of the compound enzyme solution is recovered through a bottom compound enzyme solution recovery pipeline 103, then the clear water is used for cleaning, the cleaning water is discharged, then the material is placed in a germination accelerating disc 5 through a material outlet and is conveyed to a refining device through a conveyor 4, and seeds are uniformly spread in the germination accelerating disc by a refining rake 15.
The automatic seeding mechanism comprises a seeding conveying line 17, a cup feeding device for planting cups, an automatic loading device for planting matrix 18, an automatic seeding device for germinating seeds 19, an automatic loading device for plant ash 20 and a watering device 21 are sequentially arranged on the seeding conveying line 17, and a mechanical arm 16 is arranged at the tail end of the seeding conveying line 17 and used for placing the planted cups which are sowed on a strawberry planting frame 22. The watering device 21 comprises a gate-shaped watering frame which stretches over the seeding conveying line 17, and water spray heads are distributed on the gate-shaped watering frame.
The cup mounting device for the planting cup comprises a placing frame 23 for placing the planting cup, the stacked planting cup is placed in the placing frame 23, a linear motion guide rail 8 is arranged above the starting end of the seeding conveying line 17, the linear motion guide rail 8 extends to the position above the placing frame 23, a dragging plate 9 is also mounted on the linear motion guide rail 8, a third air cylinder 24 is mounted on the dragging plate 9, a piston rod of the third air cylinder 24 is connected with the center of a suction disc frame 11, a vacuum suction disc 12 is arranged on the lower side of the suction disc frame 11, and the planting cup is sucked and placed on the seeding conveying line 17 through the vacuum suction disc 12. That is to say, the cup feeding device of the planting cup has the same structure as the automatic cup feeding device.
The device also comprises a placing frame conveying line 25, and the placing frame conveying line 25 is set to be a ground line.
The automatic planting substrate charging device and the automatic plant ash charging device are the same in structure and comprise hoppers 26 for placing planting substrates and plant ash, the bottoms of the hoppers 26 are designed to be conical, the bottom ends of the hoppers are respectively provided with a discharging barrel 27, a metering and discharging device is arranged below the discharging barrel 27 and comprises an adapter 28, the adapter 28 is of a convex structure, the center of the adapter 28 is provided with a discharging hole with an axis moving up and down, the discharging barrel 27 is inserted into the discharging hole, the lower bottom surface of the adapter 28 is fixed on a discharging carriage 29, the discharging carriage 29 comprises two parallel sliding rails 2901, the tail parts of the two sliding rails are connected through a vertical baffle 2902, the vertical baffle 2902 is positioned at the lower side of the sliding rails 2901, the lower bottom surface of the adapter 28 is fixed between the upper sides of the two sliding rails 2902, the lower side of one sliding rail is provided with an L-shaped placing rack 2903 formed by connecting the vertical plate and a transverse plate, the transverse plate of the L-shaped placing frame 2903 is located below the adapter, the striker plate 30 is slidably connected between two slide rails 2901, the length of the striker plate 30 is matched with that of the slide rails 2901, the front part of the striker plate 30 is provided with a material receiving port 3001, the material receiving port 3001 is provided with a measuring material receiving cylinder 31, the bottom of the measuring material receiving cylinder 31 is also opened, the bottom of the measuring material receiving cylinder 31 is hinged with a cover plate 3101, the rear side of the cover plate 3101 is arranged on a hinged lug 3102 extending outwards, the hinged lug 3102 is provided with a hinged hole, the lower part of the side wall of the measuring material receiving cylinder 31 is correspondingly provided with a hinged lug 3102, the hinged lug 3102 of the cover plate 3101 is hinged on the hinged lug of the side wall of the measuring material receiving cylinder 31 through a rotating pin, the measuring material receiving cylinder 31 can be located right below the adapter 28, when the measuring material receiving cylinder 31 is located below the adapter 28, the cover plate just abuts against the upper side of the transverse plate of the L-shaped placing frame 2903, the downside of striker plate 30 is provided with the journal stirrup of vertical extension, this journal stirrup is located the rear of measurement receiving cylinder 31, this journal stirrup links to each other with fourth cylinder 32's piston rod, through the cylinder control striker plate 30 removal on blowing balladeur train 29, when the seed cup is located plant matrix automatic charging device and plant ash automatic charging device below, fourth cylinder 32 control striker plate 30 slides forward, measurement receiving cylinder 31 moves forward, when apron 3101 leaves the horizontal plate of L shape rack 2903, apron 3101 is opened, the material in the measurement receiving cylinder 31 falls down and gets into in the planting cup, at this moment, striker plate 30 rear portion is located adapter 28 below, be used for blocking the material and avoid the material to continue to fall down. Then the fourth cylinder 32 controls the striker plate 30 to slide backwards, the cover plate seals the lower side of the metering material receiving barrel 31 under the action of the transverse plate of the L-shaped placing rack 2903, and the metering material receiving barrel 31 is in butt joint with the adapter 28 for discharging. In practical use, the volume of the metering receiving cylinder 31 for the planting substrate can be designed to be larger than that of the metering receiving cylinder 31 for the plant ash. Correspondingly, the inside diameters of the adapter 28, the feed cylinder 27, and the like are also increased a little. Therefore, the planting substrate discharges more materials, and the plant ash discharges less materials. The amount of plant ash need only be overlaid on the seeds.
Preferably, the adapter 28 is internally threaded, the lower barrel 27 is externally threaded, and the lower barrels of the matrix hopper and the plant ash hopper are threadedly connected in the adapter.
The automatic germination seed sowing device has the same structure as the automatic planting substrate feeding device, the inner diameter of a discharging cylinder of the automatic germination seed sowing device is matched with the size of germination seeds, and 2-3 seeds can be accommodated in a metering charging cylinder 31 of the automatic germination seed sowing device.
The automatic seeding device for the germinating seeds is close to the germinating box 2, and after the germination is completed, the germination disk 5 in the germinating box is taken out through the mechanical arm 16 and poured into the hopper.
The present invention is not limited to the above embodiments, and those skilled in the art can understand that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A strawberry seedling growing system is characterized in that: including seed soaking groove, vernalization case and automatic sowing mechanism, the upper portion of seed soaking groove is provided with edible alkaline solution feed liquor pipeline, compound enzyme feed liquor pipeline and clear water feed liquor pipeline, edible alkaline solution gets into the pipeline and links to each other with the edible alkaline solution storage tank, compound enzyme feed liquor pipeline links to each other with compound enzyme solution storage tank, all be provided with pump, flowmeter and automatic control valve on edible alkaline solution gets into pipeline and the compound enzyme feed liquor pipeline, the tank bottom of seed soaking groove is provided with the material export, the below of material export is provided with the conveyer, there is the vernalization dish on the conveyer, the dish bottom of vernalization dish has the hole of permeating water, the below of conveyer is provided with the wet return tank, and the material that comes out from seed soaking groove gets into the vernalization dish, and water flows to the wet return tank through the hole on the vernalization dish, the tank bottom of seed soaking groove still is provided with edible alkaline solution recovery pipeline, A complex enzyme solution recovery pipeline and a clear water discharge pipeline, wherein the edible alkali solution recovery pipeline is connected with an edible alkali solution storage tank, the complex enzyme solution recovery pipeline is connected with a complex enzyme solution storage tank, a heating device and a temperature sensor are arranged in the edible alkali solution storage tank, an automatic plate feeding device is arranged at the starting end of the conveyor, is used for placing the germination accelerating trays on a conveyor one by one, an automatic control valve is arranged on the material outlet, a first proximity switch is arranged on the conveyor, the first proximity switch is positioned below the material outlet of the seed soaking tank, the frame of the conveyor is also provided with a material homogenizing device, the material homogenizing device comprises a first cylinder and a material homogenizing rake connected to a piston rod of the first cylinder, softened seeds in the germination accelerating disc are uniformly paved in the germination accelerating disc through the material homogenizing rake, a mechanical arm is arranged beside the conveyor and is used for placing the germination accelerating tray filled with the softened seeds into a germination accelerating box;
the automatic seeding mechanism comprises a seeding conveying line, a cup feeding device for a planting cup, an automatic loading device for planting matrix, an automatic seeding device for pregermination seeds, an automatic loading device for plant ash and a watering device are sequentially arranged on the seeding conveying line, and a mechanical arm at the tail end of the seeding conveying line is used for placing the planted cup which is sowed on a strawberry planting frame.
2. A strawberry seedling growing system according to claim 1, wherein: the automatic tray feeding device comprises a germination tray placing platform used for placing a germination tray, the placing platform is arranged at a position close to the starting end of the conveyor, a linear motion guide rail is arranged above the starting end of the conveyor and extends to the top of the germination tray placing platform, a carriage is mounted on the linear motion guide rail, a second air cylinder is mounted on the carriage, a piston rod of the second air cylinder is connected with the center of the suction tray frame, a vacuum suction disc is arranged on the lower side of the suction tray frame, and the germination tray is sucked by the vacuum suction disc and placed on the conveyor.
3. A strawberry seedling growing system according to claim 2, wherein: guide cylinders are arranged at four corners of the upper side of the suction disc frame, guide rods are arranged on the carriage corresponding to the guide cylinders, and the guide rods penetrate into the guide cylinders.
4. A strawberry seedling growing system according to any one of claims 1 to 3, wherein: the cup feeding device for the planting cup comprises a placing frame for placing the planting cup, the stacked planting cup is placed in the placing frame, a linear motion guide rail is arranged above the starting end of the seeding conveying line and extends to the place above the placing frame, a dragging plate is mounted on the linear motion guide rail, a third air cylinder is mounted on the dragging plate, a piston rod of the third air cylinder is connected with the center of a suction disc frame, a vacuum suction disc is arranged on the lower side of the suction disc frame, and the planting cup is sucked by the vacuum suction disc and placed on the seeding conveying line.
5. A strawberry seedling growing system according to claim 4, wherein: still including placing the frame transfer chain, it sets up to the ground wire to place the frame transfer chain.
6. A strawberry seedling growing system according to claim 4, wherein: the automatic plant substrate charging device and the automatic plant ash charging device are identical in structure and comprise hoppers, the bottoms of the hoppers are designed to be conical, the bottom ends of the hoppers are respectively provided with a discharging cylinder, a metering discharging device is arranged below the discharging cylinder and comprises an adapter, the adapter is of a convex structure, the center of the adapter is provided with a discharging hole with an axis moving up and down, the discharging cylinder is inserted into the discharging hole, the lower bottom surface of the adapter is fixed on a discharging carriage, the discharging carriage comprises two parallel sliding rails, the tails of the two sliding rails are connected through a vertical baffle, the vertical baffle is positioned on the lower side of the sliding rails, the lower bottom surface of the adapter is fixed between the upper sides of the two sliding rails, the lower side of one sliding rail is provided with an L-shaped placing frame formed by connecting a vertical plate and a transverse plate, and the transverse plate of the L-shaped placing frame is positioned below the adapter, the gauge is characterized in that the striker plate is connected between two slide rails in a sliding manner, the length of the striker plate is matched with that of the slide rails, the front part of the striker plate is provided with a receiving port, a measuring receiving cylinder is arranged on the receiving port, the bottom of the measuring receiving cylinder is also opened, the bottom of the measuring receiving cylinder is hinged with a cover plate, the rear side of the cover plate is arranged on a hinged support lug extending outwards, a hinged hole is arranged on the hinged support lug, the lower part of the side wall of the measuring receiving cylinder is correspondingly provided with a hinged support lug, the hinged support lug of the cover plate is hinged on the hinged support lug of the side wall of the measuring receiving cylinder through a rotating pin, the measuring receiving cylinder can be just below the adapter, when the measuring receiving cylinder is positioned below the adapter, the cover plate just abuts against the upper side of a transverse plate of the L-shaped placing frame, the lower side of the striker plate is provided with a vertically extending support lug, and the support lug is positioned behind the measuring receiving cylinder, the support lug is connected with a piston rod of the fourth cylinder, the baffle plate is controlled to move on the discharging sliding frame through the cylinder, when the seed cup is positioned below the automatic planting matrix feeding device and the automatic plant ash feeding device, the fourth cylinder controls the baffle plate to slide forwards, the metering material receiving cylinder moves forwards, when the cover plate leaves a transverse plate of the L-shaped placing frame, the cover plate is opened, the materials in the metering material receiving cylinder fall into the planting cup, and at the moment, the rear part of the baffle plate is positioned below the adapter and used for blocking the materials and avoiding the materials from continuing to fall; then the fourth cylinder controls the striker plate to slide backwards, the cover plate seals the lower side of the metering material receiving barrel under the action of the transverse plate of the L-shaped placing frame, and the metering material receiving barrel is in butt joint with the adapter for discharging.
7. A strawberry seedling growing system according to claim 6, wherein: the volume of the metering material receiving barrel of the automatic plant ash charging device is smaller than that of the automatic planting matrix charging device.
8. A strawberry seedling growing system according to claim 7, wherein: be provided with the internal thread in the adapter, the feed cylinder is provided with the external screw thread, feed cylinder threaded connection is in the adapter down.
9. A strawberry seedling growing system according to claim 8, wherein: the automatic germination seed sowing device is identical to the automatic planting substrate feeding device in structure, the inner diameter of a lower charging barrel of the automatic germination seed sowing device is matched with the size of germination seeds, and 2-3 seeds can be accommodated in a metering charging barrel of the automatic germination seed sowing device.
10. A strawberry seedling growing system according to claim 9, wherein: the automatic seeding device for the germinating seeds is close to the germinating box, and after germination is completed, the germinating disc in the germinating box is taken out through the mechanical arm and then poured into the hopper.
CN202123094122.6U 2021-12-10 2021-12-10 Strawberry seedling growing system Expired - Fee Related CN216820968U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123094122.6U CN216820968U (en) 2021-12-10 2021-12-10 Strawberry seedling growing system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123094122.6U CN216820968U (en) 2021-12-10 2021-12-10 Strawberry seedling growing system

Publications (1)

Publication Number Publication Date
CN216820968U true CN216820968U (en) 2022-06-28

Family

ID=82105482

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123094122.6U Expired - Fee Related CN216820968U (en) 2021-12-10 2021-12-10 Strawberry seedling growing system

Country Status (1)

Country Link
CN (1) CN216820968U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114303823A (en) * 2021-12-10 2022-04-12 奉节县元龙水果种植专业合作社 Automatic strawberry seedling breeding system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114303823A (en) * 2021-12-10 2022-04-12 奉节县元龙水果种植专业合作社 Automatic strawberry seedling breeding system

Similar Documents

Publication Publication Date Title
CN109511541B (en) Automatic production system for shallow-liquid flow water culture of leafy vegetables
CN109952837B (en) Multifunctional vegetable seedling raising machine and seedling raising and sowing method
CN216820968U (en) Strawberry seedling growing system
CN216820913U (en) Strawberry sowing mechanism
CN216821067U (en) Automatic matrix charging device for strawberry planting
CN111149488B (en) Automatic plug seedling transplanting machine for hanging type tractor
CN207340466U (en) One kind automation shoot vegetable production line
CN114303716B (en) Strawberry sowing mechanism and planting matrix automatic charging device
CN108142150B (en) Sowing equipment
CN105103738A (en) Garlic seeder
CN107593030A (en) One kind automation shoot vegetable production line
CN114303823A (en) Automatic strawberry seedling breeding system
CN204539793U (en) Rice mechanical transplanting Sprout cultivation seeder
CN208462334U (en) A kind of seeding apparatus improving stock percentage of seedgermination, survival rate
CN110122000A (en) Seeding apparatus equipped with water droplet pipeline
CN209345542U (en) Tuber planter seed discharge bucket
CN115735638A (en) Three-dimensional rice planting is with device of growing seedlings
CN209420313U (en) A kind of multi-functional tuber planter
CN110476661B (en) Automatic nutrition pot seeding mechanism
CN113099916A (en) Novel soybean new variety seedling cultivation device
CN112544295A (en) Automatic cultivation system of curcuma alismatifolia
CN109526326A (en) With the tuber planter for reseeding function
CN220044335U (en) Cultivation frame for corn cultivation
CN210868974U (en) Full-automatic seedling raising seeder for rice breeding
CN217486902U (en) Seed cultivation equipment

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20220628

CF01 Termination of patent right due to non-payment of annual fee