CN117796254A - Planting device - Google Patents

Abstract

The invention is suitable for the technical field of seed planting, and provides a planting device, which comprises a planting frame, wherein a plurality of planting areas are arranged at the top of the planting frame, and each of the plurality of planting areas comprises a planting groove, a sowing groove and a seed scraping plate; the planting groove is hung at the top of the planting frame, a plurality of growth holes are formed in the inner bottom surface of the planting groove, and the outer bottoms of the planting grooves are connected with culture pipes at positions corresponding to the growth holes; the seeding groove is positioned right above the planting groove, and a plurality of leak holes are formed in the inner bottom surface of the seeding groove at equal intervals, and the leak holes correspond to the growth holes one by one; the scraping plate is positioned at one end in the notch of the sowing groove, a sliding groove is formed in one side wall of the sowing groove, a sliding piece matched with the scraping plate is arranged in the sliding groove, and the sliding piece is connected with the scraping plate; therefore, the invention can erect plants with developed rootstocks in the air for planting, so that the rootstocks do not need to be pricked into the ground surface, workers do not need to dig holes or ditches, the manpower required by planting is reduced, the planting cost is saved, and the invention is suitable for large-scale planting.

Description

Planting device

Technical Field

The invention relates to the technical field of seed planting, in particular to a planting device.

Background

Among many plants, some plants have extremely developed rootstocks, and rootstocks have medicinal values such as burdock, millettia speciosa, etc.; therefore, such plants developed in rhizomes are receiving increasing attention, research is being conducted on growing such plants developed in rhizomes, and people eating such plants are increasing.

Currently, the planting method of seeds is usually hill-drop or drill-drop, and plants with developed rhizomes are no exception; taking drill sowing as an example, ditching is carried out according to row spacing before drill sowing, seeds are uniformly sowed in the ditches, and then soil is covered; periodically fertilizing and watering during the period, digging a ditch after the plant is ripe, and digging out the rhizomes of the plant; however, as the roots of the plants are longer and the soil is pricked deeper, the plants are difficult to excavate, have high labor intensity, are labor-and time-consuming, and require a large amount of planting cost; in addition, the rhizomes are easily broken when the plants with developed rhizomes are excavated manually, so that the economic benefit and the commodity property of the plants are greatly discounted.

In the Chinese patent with publication number of CN109757324A, a high-yield planting method of burdock is proposed, seed holes are vertically excavated on ridges at intervals of 30-40cm, and the diameters of the seed holes are 30-50 cm; inserting planting pipes in the holes, wherein the height of the planting pipes is 800-100cm, the pipe diameter is 15-20cm, holes are densely distributed on the walls of the planting pipes, fertilizer soil is filled in the planting pipes, burdock seeds are sown on the fertilizer soil of the planting pipes, and rhizomes of the burdock gradually prick into the planting pipes along with growth; during harvesting, the burdock can be easily taken out by only digging out the planting tube and lightly knocking the planting tube, the defects of labor and time consumption and high labor intensity in traditional manual digging are overcome, the damage rate of the burdock is reduced, and the burdock commodity is higher.

The technical proposal is that the planting pipe is arranged, so that the rhizome of the burdock grows in the pipe, and the rhizome of the burdock is convenient to take out; but in the early stage, holes are required to be dug vertically on the ridge field, and planting pipes are buried in the holes; when the plant is planted in a large scale, a large amount of manpower and time are consumed for digging holes, the labor and time are wasted, the planting cost is increased, and the method is not suitable for planting in a large scale.

As is known, the prior art has obvious inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

In view of the above-mentioned drawbacks, an object of the present invention is to provide a planting device, which can plant plants with developed rootstock in the air, so that the rootstock is no longer required to be pricked into the ground surface, and the staff is not required to dig holes or ditches, thereby reducing the manpower required for planting, saving the planting cost, and being suitable for large-scale planting.

In order to achieve the above object, the present invention provides a planting device, including a planting frame erected above the ground, wherein a plurality of planting areas are arranged at the top of the planting frame, and each of the planting areas includes:

the planting groove is hung at the top of the planting frame, a plurality of growth holes are formed in the inner bottom surface of the planting groove at equal intervals, the outer bottoms of the planting groove are connected with culture pipes at positions corresponding to the growth holes, and plugs are plugged at the bottoms of the culture pipes;

the seeding groove is positioned right above the planting groove, a plurality of leak holes are formed in the inner bottom surface of the seeding groove at equal intervals, and the leak holes correspond to the growth holes one by one;

the seed scraping plate is positioned at one end in the notch of the seed sowing groove, a side wall of the seed sowing groove is provided with a sliding groove, a sliding piece matched with the seed sowing groove is arranged in the sliding groove, and the sliding piece is connected with the seed scraping plate.

According to one planting device of the invention, each of the planting areas is provided with a planting box; the seed box is hung on one side of the planting frame, and a draining tank is rotatably arranged at the top of one side of the seed box, which is close to the planting frame.

According to the planting device disclosed by the invention, the top of one side of the planting box, which is far away from the planting frame, is provided with the cross shaft, the draining box is connected with the traction rope, and the free end of the traction rope is erected on the cross shaft.

According to the planting device provided by the invention, the side wall of the culture tube is provided with the culture opening.

According to the planting device disclosed by the invention, the bottom periphery of the culture tube is sleeved with the extension tube, and the bottom of the extension tube is closed.

According to the planting device, the culture tube and the extension tube are made of ceramic or polypropylene.

According to the planting device disclosed by the invention, one side, far away from the sliding part, of the outer wall of each sowing groove is connected with the rotating shaft, the positions, corresponding to the two ends of the rotating shaft, of the planting frame are provided with the rotating plates, and the sowing groove is in rotating connection with the top of the planting frame through the matching of the rotating shaft and the rotating plates.

According to the planting device disclosed by the invention, the side top of the planting frame is provided with the driving part, the output shaft of the driving part is provided with the driving gear, and one end, close to the driving part, of all the rotating shafts is provided with the driven gear; the driving gear is matched with the driven gear closest to the driving gear, and all the driven gears are in transmission connection.

The invention provides a planting device, which has the beneficial effects that:

through erecting the developed rhizome plant in the air, the rhizome of the developed rhizome plant is not required to be pricked into the ground surface, and workers do not need to dig holes or ditches, so that the labor required by planting is reduced, the planting cost is saved, and the method is suitable for large-scale planting.

By arranging the seed box, a worker can soak seeds in the seed box, so that the germination rate of the seeds is improved; when the seeds are soaked, a worker can pull the traction rope to lift the draining box, so that the draining box rotates to the bottom higher than the outlet part, and the seeds in the draining box are poured out; the operation is simple, the seeds are not required to be fished out by hands of a worker, and the use is convenient.

The sliding piece drives the scraping plate to push the seeds to move to the other end of the sowing groove, so that the seeds are pushed to the leakage holes and then leaked into the soil of the sowing groove, and sowing is completed; personnel participation is not needed, and labor cost of seed planting is saved; and the sowing interval is accurate, and the sowing efficiency is higher.

By rotating the sowing groove to enable the sowing groove to stand on the top of the planting frame, the sowing groove can be prevented from covering the upper portion of the planting groove, and a wide space is provided for seed growth.

The driving gear is driven to rotate by the driving piece, the driven gear closest to the driving gear is driven to rotate by the driving gear, and the driven gear closest to the driving gear drives the rest driven gears to rotate; after the driving piece is started, all sowing grooves can be driven to overturn, so that all sowing grooves are laterally erected on the top of the planting frame; the operator is not required to manually turn over one by one, so that time and labor are saved.

Through arranging a culture opening on the side wall of the culture tube, a worker can add fertilizer into the culture tube through the culture opening, so that fertilizer is conveniently applied to the rhizomes of plants; meanwhile, the culture ports are formed, so that good ventilation conditions can be provided for the rhizomes of plants, and the growth of the rhizomes is promoted; in addition, the culture ports are formed, so that the growth state of the rhizomes can be conveniently observed at any time by workers, and adjustment (such as fertilization, insect expelling and the like) can be timely carried out when abnormal growth occurs, and the culture ports have important effects on the quality and yield of the rhizomes of plants.

The root and stem of the plant can continue to grow through sleeving the extension tube with the closed bottom at the periphery of the bottom of the culture tube, so that the length of the culture tube is prevented from affecting the growth of the root and stem of the plant; meanwhile, when the growth of plant rootstocks is overlong, staff can quickly distinguish the situation through the sleeving of the extension tube; detecting and analyzing all the plants sleeved with the extension pipes, and recording the growth condition and the fertilization condition of each plant sleeved with the extension pipes, so that the method is beneficial for workers to analyze the optimal growth condition and the optimal fertilization condition of the plants; the staff can adjust during the follow-up plant seeding according to the analysis result, has huge meaning to the yield promotion.

Drawings

FIG. 1 is a schematic overall structure of embodiment 1 of the present invention;

FIG. 2 is a schematic diagram showing the connection relationship between a seed box and a planting frame in embodiment 1 of the present invention;

FIG. 3 is a schematic view of seed soaking in example 1 of the present invention;

FIG. 4 is a schematic illustration of example 1 of the present invention after seed soaking is completed;

FIG. 5 is a schematic view showing the positional relationship between a planting groove and a sowing groove in example 1 of the present invention;

FIG. 6 is a schematic view of the seeding process of example 1 of the present invention;

FIG. 7 is a schematic view showing the structure of a culture tube according to example 1 of the present invention;

FIG. 8 is an enlarged schematic view of a portion of FIG. 1 at A;

in the figure, 1-planting frame, 11-rotating plate, 12-driving piece, 13-driving gear, 2-planting area, 21-planting groove, 211-growing hole, 22-sowing groove, 221-leaking hole, 222-rotating shaft, 223-driven gear, 224-sliding groove, 225-sliding piece, 23-scraping plate, 24-culturing tube, 241-culturing mouth, 242-extension tube, 3-seed box, 31-draining box, 311-haulage rope, 32-horizontal shaft and 4-chain.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and examples, it being understood that the specific examples described herein are for illustration only and are not intended to limit the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1 to 7, the present invention takes burdock planting as an example, and provides an embodiment 1 of a planting device, which comprises a planting frame 1 erected above the ground, wherein a plurality of planting areas 2 are arranged at the top part of the planting frame 1, and each of the planting areas 2 comprises a planting groove 21, a sowing groove 22 and a seed scraping plate 23; wherein, the planting groove 21 is hung at the top of the planting frame 1, and the inner bottom surface of the planting groove 21 is equidistantly provided with growth holes 211, the outer bottom of the planting groove 21 is connected with a culture tube 24 corresponding to the growth holes 211, and the bottom of the culture tube 24 is plugged with plugs; in this way, the burdock is erected in the air for planting, and after burdock is sown, the rhizomes of the burdock penetrate through the growing holes 211 and are pricked into the culture tube 24, and after burdock is grown and matured, the culture tube 24 is taken down, and the rhizomes of burdock penetrating through the growing holes 211 are cut off; the rhizome of burdock no longer needs to be pricked into the ground surface, and staff does not need to dig holes or ditches, so that the labor force required by burdock planting is reduced, the planting cost of burdock is saved, and the burdock planting method is suitable for large-scale planting.

Referring to fig. 2 to 4, in particular, in embodiment 1 of the present invention, a reinforcing rib is provided between two legs of the planting frame 1, and a hanging groove is provided for each planting area 2 corresponding to the reinforcing rib; each planting area 2 is provided with a seed box 3, the outer side wall of the seed box 3 is provided with a hanging plate, and the seed box 3 is hung at the hanging groove through the hanging plate; the top of one side of the seed box 3, which is close to the planting frame 1, is rotatably provided with a water draining tank 31, the top of one side of the seed box 3, which is far away from the planting frame 1, is provided with a transverse shaft 32, a traction rope 311 is connected to the water draining tank 31, and the free end of the traction rope 311 is erected on the transverse shaft 32; in this way, before the burdock seeds are sown, the staff can add clear water into the seed box 3, then put the burdock seeds into the water draining box 31, so that the seeds are soaked in the seed box 3, and the germination rate of the burdock seeds is improved; when the burdock seeds are soaked, a worker can pull the traction rope 311 to lift the draining box 31, so that the draining box 31 rotates to the bottom higher than the outlet part, and the burdock seeds in the draining box 31 are poured out; the operation is simple, the burdock seeds are fished out without hands of staff, and the use is convenient.

Referring to fig. 4 to 6, in embodiment 1 of the present invention, specifically, the seeding groove 22 is located right above the planting groove 21, and the inner bottom surface of the seeding groove 22 is equidistantly provided with the drain holes 221, and the drain holes 221 are in one-to-one correspondence with the growth holes 211; in addition, the scraping plate 23 is positioned at one end, close to the seed box 3, in the notch of the sowing groove 22, a sliding groove 224 is formed in one side wall of the sowing groove 22, a sliding piece 225 matched with the sliding groove 224 is arranged in the sliding groove 225, and the sliding piece 225 is connected with the scraping plate 23; in this way, after the burdock seeds in the draining box 31 are poured out, the burdock seeds fall into the notch of the sowing groove 22 under the inertia effect; when sowing is carried out, a worker opens the sliding part 225, and the sliding part 225 drives the scraping plate 23 to push burdock seeds to move towards the other end of the sowing groove 22; when the burdock seeds are pushed to the holes 221, the burdock seeds leak down from the holes 221 into the soil of the planting groove 21, thereby completing sowing; personnel participation is not needed, and labor cost for burdock planting is saved; and the sowing interval is accurate, and the sowing efficiency is higher.

Specifically, in embodiment 1 of the present invention, the inner diameter of the drain hole 221 is between the length of one burdock seed and the length of two burdock seeds, so that the drain hole 221 is prevented from leaking over multiple seeds at a time.

Referring to fig. 1 and 8, in particular, in embodiment 1 of the present invention, one side of the outer wall of each seeding groove 22 far away from the sliding member 225 is connected with a rotating shaft 222, the positions of the planting frame 1 corresponding to the two ends of the rotating shaft 222 are provided with rotating plates 11, and the seeding groove 22 is rotatably connected with the top of the planting frame 1 through the cooperation of the rotating shaft 222 and the rotating plates 11; in this way, after the sowing is completed, the sowing groove 22 can be rotated to be laterally erected on the top of the planting frame 1, so that the sowing groove is not covered above the planting groove 21 any more, and a wide space is provided for the growth of burdock seeds.

Referring to fig. 1 and 8, specifically, in embodiment 1 of the present invention, a driving member 12 is mounted on the side top of the planting frame 1, and a driving gear 13 is mounted on the output shaft of the driving member 12; and driven gears 223 are arranged at one ends of all the rotating shafts 222 close to the driving piece 12; the driving gear 13 is matched with the driven gear 223 closest to the driving gear 13, all the driven gears 223 are connected with chain wheels, and all the chain wheels are connected through a chain 4; in this way, the driving gear 13 is driven to rotate by the driving member 12, the driving gear 13 drives the driven gear 223 closest to the driving gear 13 to rotate, and the driven gear 223 closest to the driving gear 13 drives the remaining driven gears 223 to rotate; after the driving piece 12 is started, all the sowing grooves 22 can be driven to turn over, so that all the sowing grooves 22 are laterally erected on the top of the planting frame 1; the operator is not required to manually turn over one by one, so that time and labor are saved.

Referring to fig. 7, in embodiment 1 of the present invention, preferably, the side wall of the culture tube 24 is provided with a culture port 241, and a worker can add fertilizer into the culture tube 24 through the culture port 241, so as to facilitate fertilizer application to the rhizomes of burdock seeds; meanwhile, the culture port 241 is formed, so that good ventilation conditions can be provided for the rhizomes of the burdock, and the growth of the rhizomes of the burdock is promoted; in addition, the culture port 241 is also convenient for the staff to observe the growth state of the burdock rhizome at any time, and can make adjustment (such as fertilization, insect expelling and the like) in time when abnormal growth occurs, thereby having important effects on the quality and the yield of the burdock.

Referring to FIG. 7, it is preferable that in example 1 of the present invention, when the growth of burdock rootstock is excessively vigorous, exceeding the length of the culture tube 24; the plug of the culture tube 24 can be pulled out, and the extension tube 242 with the closed bottom is sleeved on the periphery of the bottom of the culture tube 24, so that the burdock rootstock can continue to grow, and the length of the culture tube 24 is prevented from affecting the growth of the burdock rootstock; meanwhile, when the growth of burdock rootstock is overlong, staff can quickly distinguish the situation through the sleeving of the extension pipe 242; detecting and analyzing all burdocks sleeved with the extension pipes 242, recording the growth condition and the fertilization condition of each burdock sleeved with the extension pipes 242, and facilitating the analysis of the optimal growth condition and the optimal fertilization condition of the burdocks by staff; the staff can adjust during the seeding of follow-up burdock according to the analysis result, has huge meaning to burdock output promotion.

Preferably, in embodiment 1 of the present invention, both the culture tube 24 and the extension tube 242 are made of ceramic or polypropylene, and do not dissolve out harmful substances under normal conditions and high temperature conditions, and do not melt into toxic substances during growth of burdock rhizomes, and do not deteriorate the quality of burdock.

It should be noted that, in embodiment 1 of the present invention, the growth holes 211 are spaced at 30cm intervals, and those skilled in the art can set other spaced growth holes 211 according to practical situations.

It should be noted that, in embodiment 1 of the present invention, the interval between the holes 221 is 30cm, and those skilled in the art may set other intervals between the holes 221 according to practical situations.

It should be noted that the number of planting areas 2 in embodiment 1 of the present invention is five, and those skilled in the art may select other numbers of planting areas 2 according to practical situations.

The length of the culture tube 24 in example 1 of the present invention was 100cm, and those skilled in the art could select other lengths of culture tube 24 according to the actual situation.

It should be noted that, in embodiment 1 of the present invention, the sliding member 225 is an electric sliding member, and those skilled in the art can select other sliding members 225 according to practical situations.

It should be noted that, in embodiment 1 of the present invention, the inner diameter of the drain hole 221 is between the length of one burdock seed and the length of two burdock seeds (2-4 cm).

It should be noted that, in embodiment 1 of the present invention, the driving member 12 is a gear motor, and those skilled in the art may select other driving members 12 according to practical situations.

The culture tubes 24 and the extension tubes 242 in example 1 of the present invention are made of food-grade pp polypropylene, and those skilled in the art can select other materials of the culture tubes 24 and the extension tubes 242 according to practical situations.

The working process of the invention is as follows:

the first step: before sowing, the staff adds clear water into the seed box 3, and then puts the burdock seeds into the draining box 31, so that the seeds are soaked in the seed box 3 for 24 hours.

And a second step of: after the burdock seeds are soaked, a worker pulls the traction rope 311 to lift the draining box 31, so that the draining box 31 rotates to the bottom higher than the outlet part, and the burdock seeds in the draining box 31 are poured into one end in the notch of the sowing groove 22.

And a third step of: the staff opens the sliding part 225, and the sliding part 225 drives the scraping plate 23 to push the burdock seeds to move towards the other end of the sowing groove 22; when the burdock seeds are pushed to the holes 221, the burdock seeds leak down from the holes 221 into the soil of the planting groove 21, and sowing is completed.

Fourth step: after sowing is completed, the driving piece 12 is started, the driving piece 12 drives the driving gear 13 to rotate, the driving gear 13 drives the driven gear 223 closest to the driving gear 13 to rotate, the driven gear 223 closest to the driving gear 13 drives the rest driven gears 223 to rotate, all sowing grooves 22 are erected on the top of the planting frame 1, and a wide space is provided for burdock seed growth.

In summary, the invention provides a planting device, which is characterized in that plants with developed rhizomes are erected in the air to be planted, so that the rhizomes do not need to be pricked into the ground surface, workers do not need to dig holes or ditches, the labor required for planting is reduced, the planting cost is saved, and the planting device is suitable for large-scale planting; by arranging the seed box, a worker can soak seeds in the seed box, so that the germination rate of the seeds is improved; when the seeds are soaked, a worker can pull the traction rope to lift the draining box, so that the draining box rotates to the bottom higher than the outlet part, and the seeds in the draining box are poured out; the operation is simple, the seeds are not required to be fished out by hands of a worker, and the use is convenient; the electric slide block drives the scraping plate to push the seeds to move to the other end of the sowing groove, so that the seeds are pushed to the leakage hole and then leaked into the soil of the sowing groove, and sowing is completed; personnel participation is not needed, and labor cost of seed planting is saved; the sowing interval is accurate, and the sowing efficiency is higher; the seeding groove is rotated to be laterally erected on the top of the planting frame, so that the seeding groove is not covered above the planting groove any more, and a wide space is provided for seed growth; the driving gear is driven to rotate by the reducing motor, the driven gear closest to the driving gear is driven to rotate by the driving gear, and the driven gear closest to the driving gear drives the rest driven gears to rotate; after the speed reducing motor is started, all sowing grooves can be driven to overturn, so that all sowing grooves are laterally erected on the top of the planting frame; the operator is not required to manually turn over one by one, so that time and labor are saved; through arranging a culture opening on the side wall of the culture tube, a worker can add fertilizer into the culture tube through the culture opening, so that fertilizer is conveniently applied to the rhizomes of plants; meanwhile, the culture ports are formed, so that good ventilation conditions can be provided for the rhizomes of plants, and the growth of the rhizomes is promoted; in addition, the culture ports are formed, so that a worker can observe the growth state of the rhizomes at any time, and can make adjustment (such as fertilization, insect expelling and the like) in time when abnormal growth occurs, and the culture ports have important effects on the quality and yield of the rhizomes of plants; the root and stem of the plant can continue to grow through sleeving the extension tube with the closed bottom at the periphery of the bottom of the culture tube, so that the length of the culture tube is prevented from affecting the growth of the root and stem of the plant; meanwhile, when the growth of plant rootstocks is overlong, staff can quickly distinguish the situation through the sleeving of the extension tube; detecting and analyzing all the plants sleeved with the extension pipes, and recording the growth condition and the fertilization condition of each plant sleeved with the extension pipes, so that the method is beneficial for workers to analyze the optimal growth condition and the optimal fertilization condition of the plants; the staff can adjust during the follow-up plant seeding according to the analysis result, has huge meaning to the yield promotion.

There are, of course, many other embodiments of the invention that will be apparent to those skilled in the art from consideration of this disclosure without departing from the spirit and scope of the invention as defined in the claims appended hereto.

Claims (7)

1. The utility model provides a planting device, its characterized in that, including setting up the planting frame above ground, the top of planting the frame is equipped with a plurality of planting district, and a plurality of the planting district all includes:

the planting groove is hung at the top of the planting frame, a plurality of growth holes are formed in the inner bottom surface of the planting groove at equal intervals, the outer bottoms of the planting groove are connected with culture pipes at positions corresponding to the growth holes, and plugs are plugged at the bottoms of the culture pipes;

the seeding groove is positioned right above the planting groove, a plurality of leak holes are formed in the inner bottom surface of the seeding groove at equal intervals, and the leak holes correspond to the growth holes one by one;

the seed scraping plate is positioned at one end in the notch of the seed sowing groove, a chute is formed in one side wall of the seed sowing groove, a sliding piece matched with the seed sowing groove is arranged in the chute, and the sliding piece is connected with the seed scraping plate;

every the pivot is all connected to one side that slider was kept away from to the seeding groove outer wall, the position that the planting frame corresponds the pivot both ends is equipped with the rotor plate, the seeding groove is rotated with the top of planting the frame through the cooperation of pivot and rotor plate and is connected.

2. The planting device of claim 1, wherein each of the planting areas is equipped with a seed box; the seed box is hung on one side of the planting frame, and a draining tank is rotatably arranged at the top of one side of the seed box, which is close to the planting frame.

3. The planting device of claim 2, wherein a transverse shaft is arranged at the top of one side of the seed box away from the planting frame, a traction rope is connected to the water draining box, and the free end of the traction rope is erected on the transverse shaft.

4. The planting device of claim 1, wherein a culture port is provided in a side wall of the culture tube.

5. The planting device of claim 4, wherein the bottom periphery of the culture tube is sleeved with an extension tube, and the bottom of the extension tube is closed.

6. The planting device of claim 5, wherein the culture tube and the extension tube are both ceramic or polypropylene.

7. The planting device according to claim 1, wherein a driving member is mounted at the side top of the planting frame, a driving gear is mounted on an output shaft of the driving member, and driven gears are mounted at one ends of all the rotating shafts, which are close to the driving member; the driving gear is matched with the driven gear closest to the driving gear, and all the driven gears are in transmission connection.