CN114009279A - Organic vegetable planting method - Google Patents

Abstract

The invention relates to the technical field of vegetable planting, in particular to a method for planting organic vegetables. The invention can improve the variety of organic vegetables. An organic vegetable planting method comprises the following steps: s1: putting soil into a culture mechanism, and planting rootstock roots; s2: grafting the strong organic vegetable scion to the stock, and supporting the scion; s3: soil is subjected to scarification treatment; s4: sufficient water is injected into the soil from below. Cultivate mechanism includes the end basin body, goes up the basin body, spacing seat, ring and support portion, is fixed with the basin body on the end basin body, goes up to encircle on the basin body and is fixed with four spacing seats, and the ring rotates to be connected on four spacing seats, and the ring is gone up to encircle to be equipped with four support portions that are used for supporting the scion.

Description

Organic vegetable planting method

Technical Field

The invention relates to the technical field of vegetable planting, in particular to a method for planting organic vegetables.

Background

One of the vegetables is more and more favored by people, so that the planting area is increased year by year, and a plurality of vegetables are planted in the modern times in a mode of artificial cultivation, so that the management and cultivation are facilitated. In order to ensure the quality of organic vegetables, the requirements on organic vegetable plantations are generally higher, but the varieties of the existing organic vegetables are less, so the varieties of the organic vegetables need to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the organic vegetable planting method, which has the beneficial effect that the variety of the organic vegetable can be improved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an organic vegetable planting method comprises the following steps:

s1: putting soil into a culture mechanism, and planting rootstock roots;

s2: grafting the strong organic vegetable scion to the stock, and supporting the scion;

s3: soil is subjected to scarification treatment;

s4: sufficient water is injected into the soil from below.

Cultivate mechanism includes the end basin body, goes up the basin body, spacing seat, ring and support portion, is fixed with the basin body on the end basin body, goes up to encircle on the basin body and is fixed with four spacing seats, and the ring rotates to be connected on four spacing seats, and the ring is gone up to encircle to be equipped with four support portions that are used for supporting the scion.

The supporting part comprises a sliding frame and supporting frames, the sliding frame is fixedly connected to the circular ring, the sliding frame is symmetrically provided with two supporting frames in a V shape, and the opening of the V shape is arranged towards the upper pot body.

The supporting part also comprises a V-shaped frame and an elastic seat, the V-shaped frame is fixedly connected to the sliding frame, the elastic seat is connected to the sliding frame in a sliding manner, a hydraulic cylinder I is arranged between the sliding frame and the elastic seat, and the two supporting frames are fixedly connected to the elastic seat; and a tension spring is arranged between the supporting frame and the elastic seat.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a method for planting organic vegetables;

FIG. 2 is a schematic structural view of the support of the grafted organic vegetable;

FIG. 3 is a schematic view of the structure of the holding part;

FIG. 4 is a schematic structural view of the bottom basin and a plurality of water injection parts;

FIG. 5 is a schematic structural view of the water injection part;

FIG. 6 is a schematic view showing a part of the structure of the water injection part I;

FIG. 7 is a schematic view of a partial structure of the water injection part II;

FIG. 8 is a schematic view of the plug and water tube;

FIG. 9 is a schematic structural view of the upper basin and a plurality of stirring members;

FIG. 10 is a schematic view of a portion of the mating structure of FIG. 9;

FIG. 11 is a schematic view of the structure of the stirring member;

FIG. 12 is a schematic structural view of the dial plate;

FIG. 13 is a schematic view of the structure of the baffle plate;

FIG. 14 is a schematic view of the matching structure of the supporting part and the upper basin and the plurality of stirring pieces.

Detailed Description

An organic vegetable planting method comprises the following steps:

s1: putting soil into a culture mechanism, and planting rootstock roots;

s2: grafting the strong organic vegetable scion to the stock, and supporting the scion;

s3: soil is subjected to scarification treatment;

s4: sufficient water is injected into the soil from below.

As shown in fig. 2 to 3:

soil is put into the bottom pot body 1-2 and the upper pot body 1-14, an anvil root is loaded into the soil, a cut is cut on the anvil root, a strong organic vegetable scion is grafted into the cut on the stock, and the supporting part supports branches and leaves of the grafted organic vegetable, so that the grafted organic vegetable is prevented from deviating in the production process;

the four supporting parts can simultaneously support the organic vegetables grafted on the stock root from four directions; the ring 2-2 is fixed with a toothed ring, the toothed ring is in transmission connection with a gear in a meshing manner, the gear is fixedly connected to an output shaft of a speed reduction motor, the speed reduction motor is fixed to the upper pot body 1-14, the positions of the four supporting parts are changed, and then scions grafted on different parts of the stock root are supported, so that the scions are prevented from shifting in the production process, and meanwhile, the defect that the grafting part cannot contact oxygen to perform benign growth due to the winding of a film is overcome.

As shown in fig. 3:

the two V-shaped supporting frames 2-6 form a clamping shape and are used for placing and supporting branches and leaves of the organic vegetables to avoid the branches and leaves of the organic vegetables from inclining.

Further:

the hydraulic cylinder I is started to drive the two supporting frames 2-6 on the elastic seat 2-5 to move towards the direction close to the upper pot body 1-14 or away from the upper pot body 1-14, so that organic vegetable branches and leaves with different sizes are supported;

the tension spring gives the outward tension to the two supporting frames 2-6, when the elastic seat 2-5 drives the two supporting frames 2-6 to slide on the sliding frame 2-4, because the V-shaped frames 2-3 are V-shaped, when the two supporting frames 2-6 are far away from the position of the upper pot body 1-14, the distance between the two supporting frames 2-6 is increased, so that the organic vegetables with more branches and leaves can be supported, enough supporting space is provided, the branches and leaves of the organic vegetables are prevented from being pressed, when the two supporting frames 2-6 are close to the upper pot body 1-14, the V-shaped frame 2-3 presses the two supporting frames 2-6 to resist the tension of the tension spring, the distance between the two supporting frames 2-6 is reduced, so that the organic vegetables with fewer branches and leaves can be supported, and the problem that the organic vegetables cannot be effectively supported due to too large distance between the organic vegetables and the branches and leaves is avoided.

As shown in fig. 4 to 5:

the culture mechanism further comprises a base 1-1, water flowing ports 1-3, supports 1-4 and water injection parts, wherein the bottom pot body 1-2 is fixedly connected to the upper end of the base 1-1, the bottom pot body 1-2 is uniformly provided with a plurality of water flowing ports 1-3 in a surrounding manner, the base 1-1 is fixedly connected with the plurality of supports 1-4, the plurality of supports 1-4 are respectively connected with a water injection part in a matching manner, and the plurality of water injection parts are respectively connected with the plurality of water flowing ports 1-3 in a matching manner;

when the water injection part is inserted into the water flowing openings 1-3, an external water source and the water injection part can be connected to the soil at the lower part for irrigation, and when the water injection parts are respectively inserted into the water flowing openings 1-3, the water can be uniformly irrigated into the soil at the lower part in the circumferential direction, so that the root part penetrating into the soil can uniformly and fully absorb the water, the phenomenon that the water cannot be uniformly injected from the upper part and the soil at the lower part is penetrated, the soil and the root part absorb the water unevenly, and the growth of roots and stems is influenced is avoided;

after the water injection part is extracted from the water flowing ports 1-3, redundant water after irrigation flows out from the water flowing ports 1-3, and meanwhile, the water flowing ports 1-3 are convenient for the soil at the lower part to be contacted with the outside air, so that the air permeability is good, and the plant growth is facilitated.

As shown in fig. 5 and 8:

the water injection part comprises pistons 1-5, adjusting frames 1-6, ball heads 1-7 and water pipes 1-8, the pistons 1-5 are inserted into the water flowing openings 1-3, the ball heads 1-7 are rotated on the water flowing openings 1-3, the water pipes 1-8 slide in the ball heads 1-7, hydraulic cylinders II are arranged between the ball heads 1-7 and the water pipes 1-8, the pistons 1-5 are fixed on the adjusting frames 1-6, the adjusting frames 1-6 slide on the supports 1-4, and hydraulic cylinders III are arranged between the supports 1-4 and the adjusting frames 1-6;

the water pipes 1-8 can rotate in the pistons 1-5 through the ball heads 1-7, the rotating water pipes 1-8 can loosen soil, soil agglomeration is avoided, meanwhile, the loosened soil can be better contacted with air, root benign growth is promoted, and when the pistons 1-5, the ball heads 1-7 and the water pipes 1-8 block the water outlets 1-3, the water pipes 1-8 can turn over the lower soil, so that the lower soil cannot leak from the water outlets 1-3;

the hydraulic cylinder II is started to drive the water pipes 1-8 in the rotating process to stretch and slide in the ball heads 1-7, so that the effect of turning the soil at the lower part is improved;

then, the outer ends of the water pipes 1-8 are communicated with an external water pipe through a pump, and water flows through the water pipes 1-8 and enters the soil at the lower part to irrigate the soil at the lower part;

the hydraulic cylinder III is started to drive the adjusting frames 1-6 to slide on the supports 1-4, so that the pistons 1-5 are driven to be inserted into or pulled out of the water outlets 1-3, the pistons 1-5 are inserted into the water outlets 1-3 to realize scarification and water injection on the soil at the lower part, and the pistons 1-5 are pulled out of the water outlets 1-3 to enable the soil at the lower part to be in contact with external air.

As shown in fig. 6:

the water injection part also comprises guide frames 1-9 and annular frames 1-10, two ends of the guide frames 1-9 respectively slide transversely with two ends of the adjusting frames 1-6, a hydraulic cylinder IV is arranged between the guide frames 1-9 and the adjusting frames 1-6, the annular frames 1-10 are vertically connected on the guide frames 1-9 in a sliding manner, a hydraulic cylinder V is arranged between the guide frames 1-9 and the annular frames 1-10, and the annular frames 1-10 are sleeved in the water pipes 1-8;

the hydraulic cylinder IV is started to drive the annular frame 1-10 to move left and right through the guide frame 1-9, the annular frame 1-10 is in contact with the water pipe 1-8 to drive the water pipe 1-8 to stir left and right, the hydraulic cylinder V is started to drive the annular frame 1-10 to move up and down, the annular frame 1-10 is in contact with the water pipe 1-8 to drive the water pipe 1-8 to stir up and down, the water pipe 1-8 is stirred left and right and the water pipe 1-8 is stirred up and down in a combined mode, and flexible stirring is carried out, so that soil on the lower portion is loosened more fully.

As shown in fig. 7 to 8:

the water injection part also comprises a plug head 1-11, a screw rod 1-12 and a rod frame 1-13, the lower end of the water pipe 1-8 is fixedly connected with the rod frame 1-13, the rod frame 1-13 is in threaded connection with the screw rod 1-12, the screw rod 1-12 is positioned in the water pipe 1-8, the upper end of the screw rod 1-12 is fixedly connected with the plug head 1-11, the plug head 1-11 blocks an upper end opening of the water pipe 1-8, and at the moment, when the water pipe 1-8 turns soil loose, soil cannot enter the water pipe 1-8 to block the water pipe 1-8;

when the screw rods 1-12 are rotated, the plug heads 1-11 are driven to be upwards far away from the openings at the upper ends of the water pipes 1-8, the upper ends of the water pipes 1-8 are opened, and at the moment, external water can be sprayed out from the upper ends of the water pipes 1-8.

As shown in fig. 9 to 10:

the culture mechanism further comprises notches 1-15, a ladder-shaped ring 3-1 and stirring pieces, wherein the ladder-shaped ring 3-1 is fixedly connected to the upper ends of four limiting seats 2-1, four transverse notches 1-15 are uniformly arranged on an upper pot body 1-14 in a surrounding mode, one stirring piece is arranged in each of the four notches 1-15, and the four stirring pieces are all in sliding connection with the ladder-shaped ring 3-1;

the four stirring pieces can rotate on the ladder-shaped ring 3-1 in a reciprocating mode around the axis of the upper pot body 1-14, so that soil in the upper pot body 1-14 is turned over, soil on the upper portion is turned loose, the soil on the upper portion can be fully contacted with air, and air permeability of the soil is improved.

Further:

the cultivation mechanism further comprises a pressing ring 3-6, the pressing ring 3-6 is connected with the upper ends of the four stirring pieces in a matched mode, and when the pressing ring 3-6 moves up and down, the four stirring pieces are driven to further loosen the soil.

As shown in fig. 9 to 14:

the stirring piece comprises an edge frame 3-2, a push rod 3-3, a shifting plate 3-4, an articulated arm 3-5 and a blocking piece 3-7, the edge frame 3-2 is connected to the trapezoid-shaped ring 3-1 in a sliding mode, the shifting plate 3-4 is fixed at the inner end of the edge frame 3-2, the shifting plate 3-4 is attached to the inner wall of the upper pot body 1-14, the articulated arm 3-5 is hinged to the outer end of the edge frame 3-2, the articulated arm 3-5 is hinged to a pressing ring 3-6, the pressing ring 3-6 is connected to the edge frame 3-2 in a sliding mode, and a spring piece is arranged between the pressing ring 3-6 and the edge frame 3-2; a baffle 3-7 is fixed on the side frame 3-2, the baffle 3-7 blocks the notch 1-15 from the outside of the upper basin body 1-14, and the push rod 3-3 is connected with the baffle 3-7 in a sliding way;

the spring piece gives downward pressure to the compression ring 3-6, so that the push rod 3-3 drives the shifting plate 3-4 to have outward tension and be attached to the inner wall of the upper pot body 1-14 under normal state, and the notch 1-15 is blocked;

when the press ring 3-6 is pulled up and down in a reciprocating manner, the four shifting plates 3-4 are driven by the articulated arms 3-5 to simultaneously push inwards or reset outwards, and the four shifting plates 3-4 are repeatedly vibrated and pushed to the upper part of soil;

meanwhile, the compression ring 3-6 is matched to rotate clockwise and anticlockwise in a reciprocating mode to drive the four shifting plates 3-4 to slide left and right in a reciprocating mode, the push rod 3-3 slides in the groove opening 1-15 in a reciprocating mode, the four shifting plates 3-4 which continuously push soil inwards vibrate and loosen the upper portion of the soil sufficiently, the air permeability of the soil is improved, and caking is avoided.

Claims (10)

1. The organic vegetable planting method is characterized by comprising the following steps: the method comprises the following steps:

s1: putting soil into a culture mechanism, and planting rootstock roots;

s2: grafting the strong organic vegetable scion to the stock, and supporting the scion;

s3: soil is subjected to scarification treatment;

s4: sufficient water is injected into the soil from below.

2. The method for planting organic vegetables according to claim 1, wherein: the culture mechanism comprises a bottom pot body (1-2), an upper pot body (1-14), limiting seats (2-1), a circular ring (2-2) and supporting parts, wherein the upper pot body (1-14) is fixed on the bottom pot body (1-2), the four limiting seats (2-1) are fixed on the upper pot body (1-14) in an encircling manner, the circular ring (2-2) is rotatably connected onto the four limiting seats (2-1), and the circular ring (2-2) is provided with four supporting parts for supporting scions in an encircling manner.

3. The method for planting organic vegetables according to claim 2, wherein: the supporting part comprises a sliding frame (2-4) and supporting frames (2-6), the sliding frame (2-4) is fixedly connected to the circular ring (2-2), two V-shaped supporting frames (2-6) are symmetrically arranged on the sliding frame (2-4), and the V-shaped opening faces the direction of the upper pot body (1-14).

4. The method for planting organic vegetables according to claim 3, wherein: the supporting part also comprises a V-shaped frame (2-3) and an elastic seat (2-5), the V-shaped frame (2-3) is fixedly connected to the sliding frame (2-4), the elastic seat (2-5) is connected to the sliding frame (2-4) in a sliding mode, a hydraulic cylinder I is arranged between the sliding frame (2-4) and the elastic seat (2-5), and the two supporting frames (2-6) are fixedly connected to the elastic seat (2-5); a tension spring is arranged between the supporting frame (2-6) and the elastic seat (2-5).

5. The method for planting organic vegetables according to claim 2, wherein: the culture mechanism further comprises a base (1-1), water flowing ports (1-3), a support (1-4) and a water injection part, wherein the bottom pot body (1-2) is fixed on the base (1-1), the bottom pot body (1-2) is provided with a plurality of water flowing ports (1-3), the water injection parts are respectively connected in the water flowing ports (1-3) in a matched mode, the water injection parts are respectively movably connected with the support (1-4), and the support (1-4) is arranged on the base (1-1).

6. The method for planting organic vegetables according to claim 5, wherein: the water injection part comprises pistons (1-5), adjusting frames (1-6), ball heads (1-7) and water pipes (1-8), the pistons (1-5) are inserted into the water flowing openings (1-3), the ball heads (1-7) are arranged on the water flowing openings (1-3) in a rotating mode, the water pipes (1-8) slide in the ball heads (1-7), hydraulic cylinders II are arranged between the ball heads (1-7) and the water pipes (1-8), the pistons (1-5) are fixed on the adjusting frames (1-6), the adjusting frames (1-6) slide on the supports (1-4), and hydraulic cylinders III are arranged between the supports (1-4) and the adjusting frames (1-6).

7. The method for planting organic vegetables according to claim 6, wherein: the water injection part further comprises a guide frame (1-9) and a ring frame (1-10), the guide frame (1-9) is connected to the adjusting frame (1-6) in a sliding mode, a hydraulic cylinder IV is arranged between the guide frame (1-9) and the adjusting frame (1-6), the ring frame (1-10) is connected to the guide frame (1-9) in a sliding mode, a hydraulic cylinder V is arranged between the guide frame (1-9) and the ring frame (1-10), and the water pipe (1-8) is located in the ring frame (1-10).

8. The method for planting organic vegetables according to claim 5, wherein: the water injection part further comprises a plug head (1-11), a screw rod (1-12) and a rod frame (1-13), the rod frame (1-13) is fixed on the water pipe (1-8), the screw rod (1-12) is in threaded connection with the rod frame (1-13), the plug head (1-11) is fixed on the screw rod (1-12), and the plug head (1-11) blocks the inner end of the water pipe (1-8).

9. The method for planting organic vegetables according to claim 2, wherein: the cultivation mechanism further comprises notches (1-15), ladder-shaped rings (3-1) and stirring pieces, the ladder-shaped rings (3-1) are fixedly connected onto the four limiting seats (2-1), the upper pot body (1-14) is provided with the four notches (1-15), the four notches (1-15) are internally provided with the stirring pieces, and the four stirring pieces are all connected onto the ladder-shaped rings (3-1) in a sliding mode.

10. The method for planting organic vegetables according to claim 9, wherein: the cultivation mechanism further comprises a pressing ring (3-6), and the pressing ring (3-6) is used for driving the four stirring pieces to loosen soil.

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