CN113179804A

CN113179804A - Automatic plant cultivation equipment

Info

Publication number: CN113179804A
Application number: CN202110347049.4A
Authority: CN
Inventors: 蓝志福
Original assignee: Zhangzhou Institute of Technology
Current assignee: Zhangzhou Institute of Technology
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2021-07-30

Abstract

The invention provides automatic plant cultivation equipment, which comprises a conveying device for conveying a nursery garden and an adjusting device arranged above the conveying device for adjusting the environment; the conveying device comprises a conveying groove for conveying the nursery; the conveying groove comprises a plurality of bearing sections for bearing the nursery; the adjusting device comprises a plurality of adjusting mechanisms arranged above the bearing section; in the actual implementation process, the controller controls the conveying device to convey the nursery to the position below the adjusting mechanism, the adjusting device regulates and controls the environment of the nursery, and dependence on manpower is reduced through mechanical and automatic operation; meanwhile, a large area of nursery gardens are separated through the plurality of bearing sections, so that the adjusting mechanism can finely adjust and control the environment of each nursery garden, seedlings of plants grow neatly and vigorously, and the cultivation of short and strong seedlings is realized.

Description

Automatic plant cultivation equipment

Technical Field

The invention relates to the field of plant cultivation, in particular to automatic plant cultivation equipment.

Background

Seedling culture is one of the important steps of plant cultivation, and means that seedlings are cultured in a nursery, a hotbed or a greenhouse for being transplanted into the land for planting; the seedling culture is a work with high labor intensity, time consumption and strong technical performance. In the past, most of the traditional open field direct seeding mode or the cold border, improved cold border and sunlight greenhouse seedling raising mode is adopted. Due to the influence of simple and crude equipment and natural conditions, the seedlings of the seedlings are long, poor in quality, irregular in size and high in cost, and the seedlings are often lack of seedlings due to natural disasters such as freezing injury or plant diseases and insect pests. Moreover, the traditional seedling raising technology is only based on experience, the technical errors are more, and especially the seedling raising is difficult to master and popularize only based on experience.

For commercial seedling producers, regular, short and strong seedlings are a common pursuit. Many growers have made great efforts to do this. In the production practice, the cultivation of the dwarf seedlings can be realized by controlling the growth environment of the seedlings; when the seedlings are grown in batches, the environments of the seedlings in each area in the nursery are greatly different, so that the seedlings in the same batch grow unevenly, and the sale of commercial seedlings is influenced.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide automatic plant cultivation equipment; the problems of long seedling age, poor quality, uneven size, high cost and high labor intensity of workers are solved.

In order to achieve the preferable purpose, the invention adopts the technical scheme that:

an automatic plant cultivation device comprises a conveying device for conveying a nursery garden and an adjusting device arranged above the conveying device for adjusting the environment; the conveying device comprises a conveying groove for conveying the nursery; the conveying groove comprises a plurality of bearing sections for bearing the nursery; the adjusting device comprises a plurality of adjusting mechanisms arranged above the bearing section.

The adjusting device further comprises a water dripping frame arranged between the adjusting mechanisms and a first driving device for driving the water dripping frame to swing in a reciprocating mode.

The adjusting mechanism comprises a bearing plate arranged above the conveying section; the loading board includes towards the first face of carrying the section and sets up the plant lamp on first face.

The bearing plate also comprises a second face opposite to the first face in orientation; the adjusting mechanism further comprises a support which is arranged on the second surface and connected with the water dripping frame; the drip stand includes a rotary drip tube rotatably connected to a support.

The conveying trough comprises partition plates arranged between the conveying trough and each bearing section.

The bearing section comprises baffle plates which are respectively positioned at two sides of the nursery; the adjusting mechanism further comprises a vent hole arranged on the baffle plate.

The invention also comprises a seeding device arranged at the input end of the conveying device; the seeding device comprises a soil spreading mechanism for laying soil and a seed spreading mechanism for spreading seeds.

The seed sowing mechanism comprises a sowing roller positioned above the conveying device, a shell sleeved outside the sowing roller and rotationally connected with the sowing roller, and a second driving device for driving the sowing roller to rotate; the shell comprises a feed inlet, a discharge outlet and an accommodating chamber, wherein the feed inlet is arranged at the upper end for seeds to enter, the discharge outlet is arranged at the lower end for seeds to be discharged, and the accommodating chamber is arranged between the feed inlet and the discharge outlet and used for accommodating the sowing roller.

The sowing roller comprises a plurality of containing grooves which are uniformly distributed on the circumferential surface of the sowing roller.

The soil spreading mechanism comprises two soil spreading assemblies which are arranged along the length direction of the conveying groove; the two soil spreading components are respectively arranged at two sides of the seed spreading mechanism.

The soil spreading assembly comprises a soil falling outlet for soil discharge.

The soil spreading mechanism also comprises a leveling component for leveling soil; the leveling assembly comprises a leveling plate in contact with soil and a third driving device for driving the leveling plate to move up and down.

The invention also includes a soil reclamation apparatus at the output of the conveyor.

The soil recovery device comprises a recovery mechanism for recovering soil and a shaking and screening mechanism for screening soil.

The screen shaking mechanism comprises a screen, a vibrator arranged on the screen, a fourth driving device for driving the screen to move and a fifth driving device for driving the screen to turn.

The recovery mechanism includes a soil inlet for soil to enter, a fertilizer inlet for fertilizer to enter, and a mixing chamber for mixing soil and fertilizer.

The invention also comprises a fermentation mechanism connected between the recovery mechanism and the soil spreading mechanism; the fermentation mechanism comprises a fermentation tank.

After the technical scheme is adopted, in the actual implementation process, the conveying device is controlled by the controller to convey the nursery to the position below the adjusting mechanism, the adjusting mechanism adjusts and controls the environment of the nursery, and dependence on manpower is reduced through mechanical and automatic operation; meanwhile, a large area of nursery gardens are separated through the plurality of bearing sections, so that the adjusting mechanism can finely adjust and control the environment of each nursery garden, seedlings of plants grow neatly and vigorously, and the cultivation of short and strong seedlings is realized.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of area A of the present invention;

FIG. 3 is a cross-sectional view of a seeding mechanism of the present invention;

FIG. 4 is an enlarged view of area B of the present invention;

in the figure:

a conveying device 1; an adjusting device 2; a conveying trough 11; a carrier section 111, an adjustment mechanism 21; a drip stand 22; a carrier plate 211; a support base 212; rotating the dropper 221; a partition plate 112; a baffle 113; a seeding device 3; a soil spreading mechanism 31; a seed spreading mechanism 32; a sowing roller 321; a housing 322; a feed port 3221; a discharge port 3222; a containing groove 3211; a soil spreading assembly 311; a leveling component 312; a soil recovery device 4; a recovery mechanism 41; a shaker mechanism 42; a screen 421; a soil inlet 411; a fertilizer inlet 412; and a fermentation mechanism 5.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 4, an automatic plant cultivation apparatus includes a conveying device 1 for conveying a nursery garden and a conditioning device 2 disposed above the conveying device 1 for conditioning the environment; the conveying device 1 comprises a conveying groove 11 for conveying the nursery; the conveying trough 11 comprises a plurality of nursery-carrying sections 111; the adjusting device 2 comprises a plurality of adjusting means 21 arranged above the carrier section 111. In the actual implementation process, the controller controls the conveying device 1 to convey the nursery to the position below the adjusting mechanism 21, the adjusting device 2 regulates and controls the environment of the nursery, and dependence on manpower is reduced through mechanical and automatic operation; meanwhile, a large area of nursery gardens are separated through the plurality of bearing sections 111, so that the adjusting mechanism 21 can finely regulate and control the environment of each nursery garden, seedlings of plants can grow neatly and thrive, and cultivation of dwarf and strong seedlings is realized.

Preferably, the adjusting device 2 further comprises a drip frame 22 disposed between the adjusting mechanisms 21, and a first driving device for driving the drip frame 22 to swing back and forth. In practical implementation, the first driving device drives the drip rack 22 to swing to water the bearing section 111 below the drip rack 22; the drip stand 22 includes a plurality of vertically and horizontally staggered drip pipes, and a rotary drop pipe 221 disposed in the middle and communicated with each drip pipe; the first driving device comprises a first driving motor; specifically, during watering, water flow is conveyed to the drip pipe through the rotary dropper 221, the first driving device drives the side edge of the drip frame 22 to swing up and down for a certain angle, the water pressure of each area inside the drip pipe is different through the action of gravity, the water flow is driven to flow along the width direction of the conveying groove 11, the area covered by the drip frame 22 is dripped, and the drip irrigation is uniformly carried out on the nursery garden; meanwhile, a humidity sensor is arranged in the nursery garden, the humidity is fed back to the controller through the humidity sensor, the water quantity entering the rotary dropper and the swinging frequency are controlled to control the humidity of the nursery garden, healthy growth of plants is guaranteed, and better growth of the plants is promoted.

Preferably, the adjusting mechanism 21 comprises a bearing plate 211 arranged above the conveying section; the carrier plate 211 includes a first face facing the transport section and a plant lamp disposed on the first face. In the actual implementation process, the plant is simulated through the plant lamp, sunlight is needed to carry out photosynthesis, the plant is supplemented with light or completely replaces sunlight, illumination factors in the environment are regulated and controlled through the plant lamp, healthy vegetation is guaranteed, and better growth of the plant is promoted.

Preferably, the carrier plate 211 further comprises a second face facing opposite to the first face; the adjusting mechanism 21 further comprises a support 212 arranged on the second surface and connected with the drip frame 22; the drip stand 22 includes a rotary drop tube 221 rotatably coupled to the support 212. In practical implementation, the rotating drop tube 221 is supported by the support 212, so that the drip stand 22 is more stable and efficient in swinging.

Preferably, the conveying trough 11 comprises a partition plate 112 arranged between each carrying section 111. In the practical implementation process, each nursery is divided by arranging the partition plates 112, so that mutual influence among the nurseries can be avoided, and the environment of each nursery can be controlled independently.

Preferably, the carrier section 111 comprises baffles 113 at both sides of the nursery; the adjustment mechanism 21 also includes a vent hole provided in the baffle 113. In the actual implementation process, ventilate in the flower nursery through the vent, wherein the vent is connected with the air conditioner, gives the controller through setting up temperature sensor feedback data in the nursery, lets in cold wind or warm braw through controller control air conditioner in to the nursery, and then adjusts the temperature in the nursery, makes the temperature in the nursery suitable, ventilates the nursery through inputing new trend simultaneously, guarantees healthy vegetation, promotes the better growth of plant.

Preferably, the invention also comprises a seeding device 3 arranged at the input end of the conveying device 1; the sowing device 3 includes a soil spreading mechanism 31 for spreading soil and a seed spreading mechanism 32 for spreading seeds. In the actual implementation process, the seeding device 3 is used for replacing manual seeding at the input end of the conveying device 1 to build a nursery, the mechanical and automatic operation is adopted, the labor intensity of manual labor is reduced, and the dependence on manual labor is reduced.

Preferably, the seed sowing mechanism 32 comprises a sowing roller 321 positioned above the conveying device 1, a housing 322 sleeved outside the sowing roller 321 and rotationally connected with the sowing roller 321, and a second driving device for driving the sowing roller 321 to rotate; the housing 322 includes a feed inlet 3221 at an upper end for seeds to enter, a discharge outlet 3222 at a lower end for seeds to discharge, and an accommodating chamber between the feed inlet 3221 and the discharge outlet 3222 for accommodating the sowing roller 321. In the practical implementation process, the second driving device includes a second driving motor, a hopper is arranged at the feeding port 3221, plant seeds are placed in the hopper, and the controller controls the second driving device to rotate the sowing roller 321, so that the seeds rotate along with the sowing roller 321 and rotate from the upper side of the sowing roller 321 to the lower side of the sowing roller 321; the seeds can fall into the bearing section 111 along the discharge port 3222 below for sowing, and the sowing mechanism 32 is used for sowing instead of manual sowing, so that the dependence on labor is reduced, and the labor intensity is reduced.

Preferably, the sowing roller 321 includes a plurality of accommodating grooves 3211 uniformly arranged on the circumferential surface of the sowing roller 321. In the actual implementation process, the plant seeds are accommodated through the accommodating groove 3211, so that the plant seeds can conveniently rotate along with the sowing roller 321; the storage tank 3211 that the equipartition set up simultaneously also makes and has considerable interval between various son, the subsequent management and control of being convenient for.

The soil spreading mechanism 31 comprises two soil spreading assemblies 311 arranged along the length direction of the conveying trough 11; two soil spreading assemblies 311 are positioned on either side of the seed spreading mechanism 32. In the actual implementation process, the controller controls the soil spreading mechanism 31 to spread soil in the bearing section 111, first, bottom soil is paved, then the controller controls the seed spreading mechanism 32 to spread seeds on the bottom soil, and then the controller controls the soil spreading mechanism 31 to spread a layer of upper soil above the seeds to cover the seeds; the seeds are buried in the soil through the soil spreading component 311, so that the natural environment is simulated, the germination of the seeds and the growth of seedlings are facilitated.

Preferably, the soil spreading assembly 311 includes a soil outlet for soil discharge. In the actual implementation process, the soil spreading assembly 311 includes a cover body located outside and a screw rod located inside, the soil falling outlet is arranged on the cover body, and soil is conveyed by the screw rod, so that the soil falls from the soil falling outlet and is laid in the bearing section 111; wherein the soil outlet is provided with a door, the door is sealed firstly, soil is conveyed through the screw rod, then the door is opened to enable the soil to fall down at one time, and the soil falls down through repeated operation.

Preferably, the soil spreading mechanism 31 further includes a leveling assembly 312 for leveling soil; leveling assembly 312 includes a leveling plate that contacts the soil and a third drive that drives the leveling plate in an up-and-down motion. In practical implementation, the third driving device comprises a first driving cylinder; after the soil spreading assembly 311 covers the upper soil layer, the leveling plate is driven to descend by the third driving device, and the soil is conveyed by the conveying device 1, so that the leveling plate and the nursery garden move relatively, the soil surface is leveled, and subsequent illumination compensation and moisture supplement are facilitated.

Preferably, the invention also comprises a soil reclamation device 4 at the output end of the conveyor 1. In the actual implementation process, the soil for seedling culture has larger difference compared with common soil, the soil for seedling culture is usually formed by mixing fermented agricultural waste, peat soil, ceramics or light wall mineral substances, the soil quality is loose, the nutrient content is low, and partial degradable foam particles can be added to sometimes loosen the soil quality; after once cultivating, accessible soil recovery unit 4 retrieves the soil for growing seedlings, and the repeated repetitious usage can further reduce the cost of growing seedlings.

Preferably, the soil reclamation apparatus 4 includes a reclamation mechanism 41 for reclaiming soil and a shaker mechanism 42 for screening soil. In the actual implementation process, when the seedling is finished, the soil for seedling is partially solidified, and the soil can be screened by the shaking and screening mechanism 42 to remove large solidified soil blocks and recover loose soil; meanwhile, when seedling raising is completed, the nursery garden is integrally poured into the sieve shaking mechanism 42 through the conveying device 1, soil and seedlings are separated through the sieve shaking mechanism 42, dependence on manpower is further reduced, and labor intensity of the manpower is reduced.

Preferably, the shaking mechanism 42 includes a screen 421, a vibrator disposed on the screen 421, a fourth driving device for driving the screen 421 to move, and a fifth driving device for driving the screen 421 to turn. In the actual implementation process, the fourth drive arrangement includes that the second drives actuating cylinder, and the fifth drive arrangement includes third driving motor, and on the screening back seedling was saved and screen cloth 421, the controller control fourth drive arrangement drive screen cloth 421 removed, emptys out screen cloth 421 with the seedling through the upset of fifth drive arrangement drive screen cloth 421 to collect, and further reduction reduces intensity of labour to artifical reliance.

Preferably, the recycling mechanism 41 includes a soil inlet 411 for soil entry, a fertilizer inlet 412 for fertilizer entry, and a mixing chamber for mixing soil and fertilizer. In the practical implementation process, the soil for seedling raising screened by the screen 421 enters the mixing chamber through the soil inlet 411, organic fertilizers such as chicken and duck manure enter the mixing chamber through the fertilizer inlet 412, and the soil and the fertilizers are mixed through the mixing chamber.

Preferably, the invention also comprises a fermentation mechanism 5 connected between the recovery mechanism 41 and the soil spreading mechanism 31; the fermentation mechanism 5 includes a fermentation tank. In the actual implementation process, the mixed soil enters the fermentation mechanism 5 to be stacked in the fermentation tank for fermentation, nutrition is input for the soil again, and finally the soil is conveyed to the soil spreading mechanism 31 for next planting.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. An automatic cultivation equipment of plant which characterized in that: comprises a conveying device for conveying a nursery garden and an adjusting device arranged above the conveying device for adjusting the environment; the conveying device comprises a conveying groove for conveying the nursery; the conveying groove comprises a plurality of bearing sections for bearing the nursery; the adjusting device comprises a plurality of adjusting mechanisms arranged above the bearing section.

2. The automated plant cultivation apparatus of claim 1, wherein: the adjusting device further comprises a water dripping frame arranged between the adjusting mechanisms and a first driving device for driving the water dripping frame to swing in a reciprocating mode.

3. An automated plant growing apparatus according to claim 2, wherein: the adjusting mechanism comprises a bearing plate arranged above the conveying section; the loading board includes towards the first face of carrying the section and sets up the plant lamp on first face.

4. An automated plant growing apparatus according to claim 3, wherein: the bearing plate also comprises a second face opposite to the first face in orientation; the adjusting mechanism further comprises a support which is arranged on the second surface and connected with the dripping frame; the drip stand includes a rotary drip tube rotatably connected to a support.

5. An automated plant growing apparatus according to claim 4, wherein: the conveying trough comprises partition plates arranged between the conveying trough and each bearing section.

6. An automated plant growing apparatus according to claim 5, wherein: the bearing section comprises baffle plates which are respectively positioned at two sides of the nursery; the adjusting mechanism further comprises a vent hole arranged on the baffle plate.

7. The automated plant cultivation apparatus of claim 1, wherein: the seeding device is arranged at the input end of the conveying device; the seeding device comprises a soil spreading mechanism for laying soil and a seed spreading mechanism for spreading seeds.

8. An automated plant growing apparatus according to claim 7, wherein: the seed sowing mechanism comprises a sowing roller positioned above the conveying device, a shell sleeved outside the sowing roller and rotationally connected with the sowing roller, and a second driving device for driving the sowing roller to rotate; the shell comprises a feed inlet, a discharge outlet and an accommodating chamber, wherein the feed inlet is arranged at the upper end for seeds to enter, the discharge outlet is arranged at the lower end for seeds to be discharged, and the accommodating chamber is arranged between the feed inlet and the discharge outlet and used for accommodating the sowing roller.

9. An automated plant growing apparatus according to claim 8, wherein: the sowing roller comprises a plurality of containing grooves which are uniformly distributed on the circumferential surface of the sowing roller.

10. An automated plant growing apparatus according to claim 9, wherein: the soil spreading mechanism comprises two soil spreading assemblies which are arranged along the length direction of the conveying groove; the two soil spreading components are respectively arranged at two sides of the seed spreading mechanism.