CN112806202A - Method and device for cultivating and transplanting barren mountain shrubs - Google Patents

Abstract

The invention provides a method for cultivating and transplanting barren mountain shrubs and a cultivation device thereof, comprising the following operation steps: 1) standardized seedling culture: establishing a factory-type standardized seedling-growing workshop, and culturing shrub seedlings suitable for growing in barren mountains in the seedling-growing workshop; 2) batch operation: when the shrub seedlings meet the transplanting requirement, transporting the shrub seedlings and the cultivation device to a shrub planting area in batches; 3) and (4) transplanting shrubs: digging planting holes with the same depth in a shrub planting area according to the characteristics of shrubs and the size of the volume of the culture device, placing the culture device in the planting holes, filling the periphery of the culture device with soil and watering fully. The method is beneficial to improving the survival rate and the survival rate of vegetation, reducing the construction cost of afforestation of barren mountains and simplifying the later maintenance process.

Description

Method and device for cultivating and transplanting barren mountain shrubs

Technical Field

The invention relates to the field of barren mountain vegetation greening, in particular to a method for cultivating and transplanting barren mountain shrubs and a cultivation device thereof.

Background

The construction of ecological civilization is related to the welfare of people and is in the future of nationalities. Ecological prosperity is civilization prosperity, and ecological seniority is civilization seniority. However, the method has to be acknowledged, and a large number of bare slopes and seriously eroded barren mountains and mines in northern areas of China are caused by years of high-speed development and disordered development. The barren mountains and mines are poor and cold in soil and are in arid and rainy climate, so that the vegetation survival rate is low, the vegetation grows slowly, and the vegetation recovery is difficult, thereby aggravating the frequency of geological disasters of the barren mountains, seriously influencing the production and life of surrounding residents on one hand, and restricting the sustainable development of local economy on the other hand. Therefore, afforestation of vegetation on barren mountains and restoration of green of mines are imperative.

At present, the conventional vegetation recovery methods for greening barren mountains and mines mainly comprise net hanging, spray seeding and the like, but the net hanging method has strong technical performance, comprises three technical systems of civil engineering, seeding engineering and maintenance engineering, has complicated construction procedures and strict requirements, and the recovery effect is often greatly reduced due to construction reasons; in addition, the spray seeding technology has high cost, unstable protective performance, poor landscape effect, poor water and fertilizer retention performance, poor drought resistance, easy weathering and cracking, and large and expensive later-stage maintenance workload.

The analysis shows that the existing method with high vegetation survival rate, low construction cost and simple and convenient later maintenance is lacked in the field of barren mountain vegetation greening.

Disclosure of Invention

The invention aims to provide a method for cultivating and transplanting barren mountain shrubs and a cultivating device thereof, which are beneficial to improving the survival rate and survival rate of vegetation, reducing the construction cost of barren mountain greening and simplifying the later maintenance process.

The cultivating and transplanting method of barren mountain shrubs comprises the following operation steps:

1) standardized seedling culture: establishing a factory-type standardized seedling-growing workshop, and culturing shrub seedlings suitable for growing in barren mountains in the seedling-growing workshop;

a. preparing a culture device, and filling nutrient soil in the culture device;

b. sowing shrub seeds with full grains into nutrient soil;

c. arranging a plurality of cultivation devices on which shrub seeds are sown in a row and column in a seedling cultivation workshop in order, and performing seedling cultivation management in a unified way;

2) batch operation: when the shrub seedlings meet the transplanting requirement, transporting the shrub seedlings and the cultivation device to a shrub planting area in batches;

3) and (4) transplanting shrubs: digging planting holes with the same depth in a shrub planting area according to the characteristics of shrubs and the size of the volume of the culture device, placing the culture device in the planting holes, filling the periphery of the culture device with soil and watering fully; the inclined included angle between the central axis of the cultivation device and the horizontal plane is alpha, wherein alpha is more than or equal to 30 degrees and less than or equal to 60 degrees.

Preferably, the number of shrub seeds sowed in the nutrient soil is not less than 2, and the water content of the nutrient soil is 26-35%.

Preferably, the shrub seed is not limited to yellow thorn rose seed, wild jujube seed, amorpha fruticosa seed, chaste tree seed, spiraea tripartita seed, calcium fruit seed, sea buckthorn seed.

Preferably, the included angle alpha of the inclination between the central axis of the culture device and the horizontal plane is 40 degrees, 44 degrees and 48 degrees.

Preferably, in the batch operation process, diseased seedlings and weak seedlings are removed.

A cultivation device is used for cultivating and transplanting the shrub seedlings and comprises a storage part, a collection part, a transmission pipe and a cultivation cylinder, wherein the storage part is a cylindrical thin-wall container with the upper end and the lower end sealed, an input hole and a plurality of output holes are formed in the upper end of the storage part, and the input hole is located on one side of the upper end of the storage part;

the cultivation cylinder is a cylindrical container with openings at the upper end and the lower end, a plurality of tuber holes are formed in the cultivation cylinder, and the lower end of the cultivation cylinder is sleeved on the outer wall of the upper part of the storage part in a penetrating manner, so that the cultivation cylinder is fixedly connected with the storage part;

the conveying pipe is sleeved in the cultivation barrel in a penetrating mode, the lower end of the conveying pipe is communicated with the storage part, the central axis of the conveying pipe is overlapped with the central axis of the input hole, the upper end of the conveying pipe is connected with the collecting part, and the collecting part is of a bucket type structure.

Preferably, the height of the transfer tube is greater than the height of the incubation cylinder, such that the collecting member is located outside the incubation cylinder.

Preferably, the cross section of the storage part is circular or regular polygon and is processed by hard pressure-resistant materials.

Preferably, the hard pressure-resistant material of the storage member is a steel plate.

Preferably, the cross section of the cultivating cylinder is the same as the cross section of the storage part, and the cultivating cylinder is formed by bending and connecting net sheets.

The technical scheme of the invention has the following advantages:

in the invention, afforestation of barren mountain vegetation is carried out through standardized seedling raising, batch operation and shrub transplanting. Firstly, establishing a factory-type standardized seedling raising workshop, and culturing shrub seedlings suitable for growing in barren mountains in the seedling raising workshop, wherein the seedling raising mode keeps the temperature and the moisture of the seedling raising workshop within a proper range of the shrub seedlings, so that the outdoor shrub seedlings are prevented from being damaged by low-temperature cold flow, rain and night frost and the like, the pest and disease damage is favorably controlled and alleviated, centralized control and management are facilitated, the survival rate of the shrub seedlings reaches more than 92 percent, and the disaster resistance and the forming time of the shrub seedlings are improved;

secondly, after the shrub seedlings meet the transplanting requirement, the shrub seedlings and the cultivation device are transported to a shrub planting area in batches, so that on one hand, the running speed of the shrub seedlings is improved, the shrub seedlings in a seedling raising workshop are rapidly transported to the shrub planting area, the requirement of shrub transplanting is guaranteed, on the other hand, the shrub seedlings and the cultivation device are transferred, and therefore damage to the shrub seedlings in the transportation process is avoided;

thirdly, digging a planting hole with the same depth in a shrub planting area according to the self characteristics of shrubs and the size of the volume of the cultivation device, placing the cultivation device in the planting hole, filling the periphery of the cultivation device with soil crumbs and pouring water, wherein the transplanted shrub seedlings grow vigorously by utilizing the components of nutrient soil in the cultivation device, and are transplanted together with the cultivation device in the transplanting process, so that the tightness of the root-soil complex of the shrub seedlings is not interrupted, the damage to the root seedlings is reduced to the minimum, and the survival rate of the shrubs is improved.

In the invention, the inclined included angle alpha between the central axis of the culture device and the horizontal plane is more than or equal to 30 degrees and less than or equal to 60 degrees, and the inclined included angle alpha is beneficial to the shrub seedlings to absorb nutrients from the storage part of the culture device on one hand and to the shrub seedlings to resist wind and sand disasters of nature on the other hand.

In the invention, in the batch operation process, diseased seedlings and weak seedlings are removed, so that the shrub seedlings can grow well after being transplanted, and the problem of death after being transplanted due to early diseased and weak seedlings is avoided.

The culture device comprises a storage part, a collection part, a transmission pipe and a culture cylinder, wherein the storage part is a cylindrical thin-wall container with the upper end and the lower end sealed, an input hole and a plurality of output holes are formed in the upper end of the storage part, and the input hole is positioned on one side of the upper end of the storage part; the cultivation cylinder is a cylindrical container with openings at the upper end and the lower end, a plurality of tuber holes are formed in the cultivation cylinder, and the lower end of the cultivation cylinder is sleeved on the outer wall of the upper part of the storage part in a penetrating manner, so that the cultivation cylinder is fixedly connected with the storage part; the conveying pipe is sleeved in the cultivation barrel in a penetrating mode, the lower end of the conveying pipe is communicated with the storage part, the central axis of the conveying pipe is overlapped with the central axis of the input hole, the upper end of the conveying pipe is connected with the collecting part, and the collecting part is of a bucket type structure. According to the structure, the cultivation cylinder is filled with cultivation soil, and the cultivation cylinder is provided with the wind root holes, so that the growth space of the roots of the shrubs after transplantation is not limited; the rainwater that the water of artifical watering and the collection of bucket type collection piece is saved the storage component through the transmission pipe through the collection piece for the bush seedling does not need often to water a large amount of water in arid or semiarid area, not only can save a large amount of water resources, can also reduce the cost of afforestation management and the maintenance work load of later stage.

Drawings

FIG. 1 is a flow chart of the operation steps of the cultivation and transplantation method of the present invention;

FIG. 2 is a flow chart of the operation steps of the standardized seedling raising in FIG. 1;

FIG. 3 is a schematic view of the structure of the incubator of the present invention;

illustration of the drawings:

1-a storage element; 11-an output aperture; 2-cultivating the tube; 21-wind root holes; 3-a transfer pipe; 4-collecting member.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. In addition, for the convenience of description, the terms "upper", "lower", "left" and "right" are used to refer to the same direction as the upper, lower, left, right, etc. of the drawings, and the terms "first", "second", etc. are used for descriptive distinction and have no special meaning.

The invention provides a method for cultivating and transplanting barren mountain shrubs and a cultivating device thereof, aiming at solving the problems in the background technology in the process of afforesting barren mountain vegetation.

The cultivating and transplanting method of barren mountain shrubs comprises the following operation steps:

1) standardized seedling culture: establishing a factory-type standardized seedling-growing workshop, and culturing shrub seedlings suitable for growing in barren mountains in the seedling-growing workshop;

a. preparing a culture device, and filling nutrient soil in the culture device;

b. sowing shrub seeds with full grains into nutrient soil;

c. and arranging a plurality of cultivation devices on which shrub seeds are sown in a row and column in a seedling cultivation workshop in order, and performing seedling cultivation management in a unified way.

In a specific application scene, the seedling raising workshop is established in an area with convenient traffic and sufficient water source and is separated from a shrub planting area, so that the problems of low germination rate and low survival rate of shrubs and death caused by insufficient nutrient supply due to poor cold soil and less water in the shrub planting area are solved.

In a specific application scene, the nutrient soil contains nitrogen, phosphorus, potassium, trace elements and other nutrient components which are beneficial to the growth of shrubs, so that the normal growth and development of the shrubs are ensured.

In a specific application scene, a plurality of cultivation devices with shrub seeds are regularly arranged in rows and columns in a seedling raising workshop, and seedling raising management is uniformly performed, so that the construction cost is greatly reduced, the pest and disease damage is favorably controlled and alleviated, centralized control and management are facilitated, the survival rate of shrub seedlings reaches more than 92%, and the disaster resistance and the forming time of the shrub seedlings are improved.

2) Batch operation: and when the shrub seedlings meet the transplanting requirement, transporting the shrub seedlings and the cultivation device to a shrub planting area in batches.

In a specific application scene, the operation speed of the shrub seedlings is increased through batch operation, so that the shrub seedlings in a seedling raising workshop are quickly conveyed to a shrub planting area, the requirement of shrub transplanting is met, and the shrub seedlings are transferred together with a cultivation device, so that damage to the shrub seedlings in the transportation process is avoided.

3) And (4) transplanting shrubs: digging planting holes with the same depth in a shrub planting area according to the characteristics of shrubs and the size of the volume of the culture device, placing the culture device in the planting holes, filling the periphery of the culture device with soil and watering fully; the inclined included angle between the central axis of the cultivation device and the horizontal plane is alpha, wherein alpha is more than or equal to 30 degrees and less than or equal to 60 degrees.

In a specific application scene, the shrub seedlings and the cultivation device are buried in the planting holes together, the root systems of the shrub seedlings after being transplanted are protected, and the growth of the root systems is facilitated. The survival rate of shrub transplantation can be greatly improved without the need of seedling revival stage because the roots are not damaged, and the shrub can grow normally.

Preferably, the number of shrub seeds sowed in the nutrient soil is not less than 2, and the water content of the nutrient soil is 26-35%.

Preferably, the shrub seed is not limited to yellow thorn rose seed, wild jujube seed, amorpha fruticosa seed, chaste tree seed, spiraea tripartita seed, calcium fruit seed, sea buckthorn seed.

In a specific application scene, the shrub seeds can be yellow rose seeds, wild jujube seeds, amorpha fruticosa seeds, chaste tree seeds, spirea tricuspidata seeds, calcium fruit seeds and sea buckthorn seeds, and other shrub seeds can be selected, so long as the condition that vegetation of barren mountains is not affected can be guaranteed, which shrub seeds can be selected according to actual needs, and the protection range of the application cannot be affected by the change of the shrub seeds.

Preferably, the included angle alpha of the inclination between the central axis of the culture device and the horizontal plane is 40 degrees, 44 degrees and 48 degrees.

Preferably, in the batch operation process, diseased seedlings and weak seedlings are removed.

In a specific application scene, diseased seedlings and weak seedlings are removed in the batch operation process, so that the shrub seedlings can grow normally after being transplanted, and the problem of death caused by early diseased and weak seedlings after being transplanted is solved.

A cultivation device is used for cultivating and transplanting the shrub seedlings and comprises a storage part, a collection part, a transmission pipe and a cultivation cylinder, wherein the storage part is a cylindrical thin-wall container with the upper end and the lower end sealed, an input hole and a plurality of output holes are formed in the upper end of the storage part, and the input hole is located on one side of the upper end of the storage part;

the cultivation cylinder is a cylindrical container with openings at the upper end and the lower end, a plurality of tuber holes are formed in the cultivation cylinder, and the lower end of the cultivation cylinder is sleeved on the outer wall of the upper part of the storage part in a penetrating manner, so that the cultivation cylinder is fixedly connected with the storage part;

the conveying pipe is sleeved in the cultivation barrel in a penetrating mode, the lower end of the conveying pipe is communicated with the storage part, the central axis of the conveying pipe is overlapped with the central axis of the input hole, the upper end of the conveying pipe is connected with the collecting part, and the collecting part is of a bucket type structure.

In the specific application scene, collect a mainly used and collect the rainwater, consequently collect the piece not only can be bucket type structure, can also be other structures, as long as can guarantee to collect under the not influenced circumstances of rainwater ability, the structural shape of specifically collecting the piece can be selected according to actual need, and the protection scope of this application can not be influenced in the change of such structural shape.

Preferably, the height of the transfer tube is greater than the height of the incubation cylinder, such that the collecting member is located outside the incubation cylinder.

Preferably, the cross section of the storage part is circular or regular polygon and is processed by hard pressure-resistant materials.

In a specific application scenario, when the cross section is circular, the shape and the structure of the storage part are cylindrical; when the cross section is a regular polygon, the shape structure of the storage piece is in a regular prism shape. The storage piece is mainly used for storing nutrients and moisture, so that the shape structure of the storage piece can be cylindrical and in a regular prism shape, and can be in a spherical shape and the like, as long as the sealing performance and the processing difficulty of the storage piece can be guaranteed without being influenced, the shape structure of the specific storage piece can be selected according to actual needs, and the change of the shape structure cannot influence the protection range of the storage piece.

Preferably, the hard pressure-resistant material of the storage member is a steel plate.

In a specific application scenario, the hard compression-resistant material can be a steel plate, can also be plastic, and can be selected according to actual needs as long as the strength, hardness and sealing performance of the storage part are not affected, and the change of the material does not affect the protection range of the application.

Preferably, the cross section of the cultivating cylinder is the same as the cross section of the storage part, and the cultivating cylinder is formed by bending and connecting net sheets.

The first embodiment is as follows:

the cultivating and transplanting method of barren mountain shrubs of the invention is shown in figure 1, and the operation steps comprise:

1) standardized seedling culture: as shown in fig. 2, a factory-type standardized seedling raising workshop is established, and shrub seedlings suitable for growing in barren mountains are cultivated in the seedling raising workshop;

a. preparing a culture device, and filling nutrient soil in the culture device;

b. sowing shrub seeds with full grains into nutrient soil;

c. arranging a plurality of cultivation devices on which shrub seeds are sown in a row and column in a seedling cultivation workshop in order, and performing seedling cultivation management in a unified way;

2) batch operation: when the shrub seedlings meet the transplanting requirement, transporting the shrub seedlings and the cultivation device to a shrub planting area in batches;

3) and (4) transplanting shrubs: digging planting holes with the same depth in a shrub planting area according to the characteristics of shrubs and the size of the volume of the culture device, placing the culture device in the planting holes, filling the periphery of the culture device with soil and watering fully; the inclined included angle alpha between the central axis of the culture device and the horizontal plane is 44 degrees.

Preferably, the number of shrub seeds sown in the nutrient soil is 2, and the water content of the nutrient soil is 28%.

Preferably, the shrub seeds are wild jujube seeds.

Preferably, in the batch operation process, diseased seedlings and weak seedlings are removed.

A cultivation device is used for cultivating and transplanting the shrub seedlings, and comprises a storage part 1, a collection part 4, a transmission pipe 3 and a cultivation cylinder 2, wherein the storage part 1 is a cylindrical thin-wall container with the upper end and the lower end sealed, an input hole and a plurality of output holes 11 are formed in the upper end of the storage part 1, and the input hole is positioned on one side of the upper end of the storage part 1;

the cultivating cylinder 2 is a cylindrical container with openings at the upper end and the lower end, a plurality of wind root holes 21 are formed in the cultivating cylinder 2, and the lower end of the cultivating cylinder 2 is sleeved on the outer wall of the upper part of the storage part 1 in a penetrating manner, so that the cultivating cylinder 2 is fixedly connected with the storage part 1;

the conveying pipe 3 is sleeved in the cultivation barrel 2 in a penetrating mode, the lower end of the conveying pipe 3 is communicated with the storage part 1, the central axis of the conveying pipe 3 is overlapped with the central axis of the input hole, the upper end of the conveying pipe is connected with the collecting part 4, and the collecting part 4 is of a bucket type structure.

Preferably, the height of the transfer tube 3 is greater than the height of the incubation cylinder 2, so that the collecting member 4 is located outside the incubation cylinder 2.

Preferably, the storage member 1 has a circular cross section and is formed by machining a hard compression-resistant material.

Preferably, the hard, pressure-resistant material of the storage member 1 is a steel plate.

Preferably, the cross section of the incubation cylinder 2 is the same as that of the storage member 1, and the incubation cylinder 2 is formed by bending and connecting mesh sheets.

Claims (10)

1. A method for cultivating and transplanting barren mountain shrubs is characterized by comprising the following operation steps:

1) standardized seedling culture: establishing a factory-type standardized seedling-growing workshop, and culturing shrub seedlings suitable for growing in barren mountains in the seedling-growing workshop;

a. preparing a culture device, and filling nutrient soil in the culture device;

b. sowing shrub seeds with full grains into nutrient soil;

c. arranging a plurality of cultivation devices on which shrub seeds are sown in a row and column in a seedling cultivation workshop in order, and performing seedling cultivation management in a unified way;

2) batch operation: when the shrub seedlings meet the transplanting requirement, transporting the shrub seedlings and the cultivation device to a shrub planting area in batches;

3) and (4) transplanting shrubs: digging planting holes with the same depth in a shrub planting area according to the characteristics of shrubs and the size of the volume of the culture device, placing the culture device in the planting holes, filling the periphery of the culture device with soil and watering fully; the inclined included angle between the central axis of the cultivation device and the horizontal plane is alpha, wherein alpha is more than or equal to 30 degrees and less than or equal to 60 degrees.

2. The method for cultivating and transplanting the barren mountain shrubs as claimed in claim 1, wherein the number of shrub seeds sowed in the nutrient soil is not less than 2, and the moisture content of the nutrient soil is 26-35%.

3. The method for cultivating and transplanting the barren mountain shrubs as claimed in claim 2, wherein the shrub seeds are not limited to yellow thorn rose seeds, wild jujube seeds, amorpha fruticosa seeds, chaste tree seeds, spiraea triphylla seeds, prunus humilis seeds, and hippophae rhamnoides seeds.

4. The method for cultivating and transplanting the barren mountain shrubs as claimed in claim 1, wherein the included angle α between the central axis of the cultivating device and the horizontal plane is 40 °, 44 ° or 48 °.

5. The method for cultivating and transplanting the barren mountain shrubs as claimed in claim 1, wherein diseased seedlings and weak seedlings are removed during the batch operation.

6. A culture device for cultivating and transplanting shrub seedlings according to claims 1-5, comprising a storage member (1), a collection member (4), a transfer pipe (3) and a cultivation cylinder (2), wherein the storage member (1) is a cylindrical thin-walled container with closed upper and lower ends, an input hole and a plurality of output holes (11) are formed in the upper end of the storage member (1), and the input hole is positioned on one side of the upper end of the storage member (1);

the cultivation cylinder (2) is a cylindrical container with openings at the upper end and the lower end, a plurality of wind root holes (21) are formed in the cultivation cylinder (2), and the lower end of the cultivation cylinder (2) is sleeved on the outer wall of the upper part of the storage part (1) in a penetrating manner, so that the cultivation cylinder (2) is fixedly connected with the storage part (1);

the conveying pipe (3) is sleeved in the cultivation barrel (2), the lower end of the conveying pipe (3) is communicated with the storage part (1), the central axis of the conveying pipe (3) is coincident with the central axis of the input hole, the upper end of the conveying pipe is connected with the collection part (4), and the collection part (4) is of a bucket-shaped structure.

7. A planter according to claim 6, wherein the transfer tube (3) has a height greater than the height of the growing cylinders (2) so that the collection member (4) is located outside the growing cylinders (2).

8. A culture device according to claim 6, characterized in that the cross-section of the storage element (1) is circular or polygonal and is made of a hard, pressure-resistant material.

9. A culture device according to claim 8, characterized in that the hard, pressure-resistant material of the storage element (1) is a steel plate.

10. A culture device according to claim 8, characterized in that the cross-section of the cultivating cylinder (2) is the same as the cross-section of the storing element (1), and the cultivating cylinder (2) is formed by folding and connecting mesh sheets.

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