CN111096181B - Monitoring feedback type greening method and system for ecological restoration - Google Patents

Abstract

The invention discloses a monitoring feedback type greening method for ecological restoration, which specifically comprises the following steps: the method comprises the following steps: digging surface soil, laying wet road pipelines, and laying water pipes and nutrient solution pipes; step two: a main pipeline is laid on the top of the wet pipeline, and the wet pipeline is sealed on the bottom plane of the main pipeline; step three; backfilling surface soil; step four: installing an electric cabinet; step five: installing a plurality of soil detectors, wherein the soil detectors are arranged in an array; the wind-resistant instrument also comprises a wire inlet device, a wind meter and a wind-resistant net; the assistance through the sensor on the one hand detects and adjusts the afforestation, and degree of automation is high, and is good to taking care of the vegetation, and the practicality is strong, and on the other hand has increased the inlet wire ware, can still carry out wearing to establish of wire and cable after accomplishing the construction, and the later stage practicality is high, and cost of maintenance is low, is difficult for abandoning because ageing.

Description

Monitoring feedback type greening method and system for ecological restoration

Technical Field

The invention belongs to the technical field of environmental restoration equipment and particularly relates to a monitoring feedback type greening method and system for ecological restoration.

Background

With the development of social economy and the improvement of urbanization, the problem of ecological environment damage caused by human activities is becoming more serious, and particularly, after industrial activities such as mining operation and the like, the ecological environment is difficult to recover. Because the ecological destructive behaviors are widely and dispersedly distributed, the danger consciousness of people is not strong, the natural landscape is influenced, the environment pollution is caused, the landslide is induced, the geological disasters such as water loss and soil erosion are caused, and how to recover and rebuild the degraded ecological system is the subject of general attention of all countries in the world.

Nowadays, a part of the attention is focused on the goal of ecological restoration, but the goal is started late and the development speed is limited, so that a huge promotion space still exists so far, and the goal has many defects. For example, most of the existing greening modes can not be adjusted automatically, can not change the environment, and have low long-term use efficiency and poor practicability; meanwhile, the existing greening mode mostly adopts one-time construction, the construction cannot be carried out again after the construction is finished, the renovation cost is high, the abandonment is easily caused, the limitation is large, and the practicability is poor. Therefore, the present application provides innovation and improvement to the ecological blanket with respect to the above problems.

The existing greening mode mainly has the following problems:

1. most of the existing greening modes can not be adjusted independently, the environment can not be changed, the long-term use efficiency is low, and the practicability is poor.

2. The existing greening mode mostly adopts one-time construction, cannot be constructed again after construction is finished, has high renovation cost, is easy to cause abandonment, has large limitation and poor practicability.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the invention aims to provide a monitoring feedback type greening method and a monitoring feedback type greening system for ecological restoration.

The technical scheme is as follows: in order to achieve the above object, the present invention provides a monitoring feedback type greening method for ecological restoration, which specifically comprises the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline, wherein a water pipe and a nutrient solution pipe are arranged in the wet road pipeline in a penetrating manner, a through hole is formed in the edge of the wet road pipeline, the water pipe penetrates out of the through hole, and the nutrient solution pipe penetrates out of the through hole;

step two: the wet road pipeline is in a groove shape, a main road pipeline is laid on the top of the wet road pipeline, the wet road pipeline is sealed on the bottom plane of the main road pipeline, and electric wires penetrate through the main road pipeline;

step three; backfilling surface soil;

step four: installing an electric cabinet;

step five: and installing a plurality of soil detectors, wherein the soil detectors are arranged in an array.

The greening mode is set, the greening is detected and adjusted through the assistance of the sensor, the automation degree is high, the vegetation is well cared, and the practicability is high.

The contact surface between the wet path pipeline and the water pipe is provided with a sealing structure, the contact surface between the wet path pipeline and the nutrient solution pipe is provided with a sealing structure, the sealing structure comprises a first sealing block, a second sealing block, an air cavity, a medium permeation strip and an air expansion agent, one side of the first sealing block is provided with the second sealing block, and the first sealing block is in matched contact with the second sealing block; the first sealing block is provided with a medium permeation strip, one end of the medium permeation strip is arranged on the surface of the first sealing block, the other end of the medium permeation strip is connected with an air cavity, the air cavity is arranged in the first sealing block, and an air expanding agent is arranged in the air cavity.

The first sealing block is provided with a bulge, the second sealing block is provided with a groove, and the bulge is arranged in the groove; the gas expanding agent is magnesium powder in nature.

The main line pipeline is internally provided with a line inlet device, the line inlet device comprises a slide rail, a slide block, a line clamping chuck, a clamping spring, a transmission chain, a chain wheel and a driving motor, the slide rail is arranged at two sides of the main line pipeline, the slide block is arranged on the slide rail in a sliding manner, the line clamping chuck is fixedly arranged on the slide block, the clamping spring is arranged at one side of the line clamping chuck, one end of the clamping spring is fixedly arranged on the slide block, and the other end of the clamping spring is fixedly arranged on the line clamping chuck; the automatic transmission device is characterized in that a transmission chain is fixedly arranged on the sliding block and connected with a chain wheel, the chain wheel is arranged on the inner surface of the trunk pipeline through a bearing, a driving motor is connected and arranged at the center of the chain wheel, and the driving motor is fixedly arranged on the inner surface of the trunk pipeline.

Due to the arrangement of the wire inlet device, the wire inlet device is additionally arranged, the wire and the cable can still be inserted after construction is completed, the later-stage practicability is high, the maintenance cost is low, and the wire and the cable are not easy to discard due to aging.

The monitoring feedback type greening method for ecological restoration further comprises a wind measuring instrument and a windproof net, wherein the wind measuring instrument is fixedly arranged on the ground and is connected with an electric cabinet, the electric cabinet is connected with the windproof net, and the windproof net is arranged on the ground.

The windproof net comprises a ground sinking groove, a lifting electric cylinder and a windproof net body, wherein the ground sinking groove is polygonal, the lifting electric cylinder is arranged in the ground sinking groove, the bottom of the lifting electric cylinder is fixedly arranged at the bottom of the ground sinking groove, and the windproof net body is fixedly arranged at the top of the lifting electric cylinder.

The top of the land subsidence groove is provided with a waterproof plate which is obliquely arranged.

The windproof net is additionally provided with an automatic windproof function, so that the windproof function can be achieved, and the lighting and the attractiveness of greening cannot be influenced.

The technical scheme shows that the invention has the following beneficial effects:

1. according to the monitoring feedback type greening method and system for ecological restoration, provided by the invention, greening is detected and adjusted with the assistance of the sensor, the automation degree is high, the care for vegetation is excellent, and the practicability is strong.

2. According to the monitoring feedback type greening method and system for ecological restoration, the wire inlet device is additionally arranged, the wires and cables can still be penetrated and installed after construction is completed, later-stage practicability is high, maintenance cost is low, and abandonment due to aging is not prone to occurring.

3. According to the monitoring feedback type greening method and system for ecological restoration, an automatic windproof function is added, on one hand, the windproof function can be achieved, and on the other hand, lighting and attractiveness of greening cannot be influenced.

Drawings

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

FIG. 2 is a schematic structural view of a seal structure of the present invention;

FIG. 3 is a schematic structural view of the wire inlet of the present invention;

FIG. 4 is a schematic side view of the wire feeder of the present invention;

FIG. 5 is a schematic view of the construction of the windproof net of the invention;

in the figure: the device comprises a wet pipeline-1, a dry pipeline-2, a water pipe-3, a nutrient solution pipe-4, an electric cabinet-5, a soil detector-6, a sealing structure-7, a first sealing block-71, a second sealing block-72, an air cavity-73, a medium permeation strip-74, an air expanding agent-75, a wire inlet device-8, a sliding rail-81, a sliding block-82, a wire clamping chuck-83, a clamping spring-84, a transmission chain-85, a chain wheel-86, a driving motor-87, a wind measuring instrument-9, a wind-proof net-10, a ground sinking groove-101, a lifting electric cylinder-102, a wind-proof net body-103 and a waterproof board-104.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Example 1

As shown in fig. 1-5, a monitoring feedback type greening method for ecological restoration specifically comprises the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline 1, penetrating a water pipe 3 and a nutrient solution pipe 4 into the wet road pipeline 1, arranging a through hole at the edge of the wet road pipeline 1, penetrating the water pipe 3 out of the through hole, and penetrating the nutrient solution pipe 4 out of the through hole;

step two: the wet road pipeline 1 is in a groove shape, a dry road pipeline 2 is laid on the top of the wet road pipeline 1, the wet road pipeline 1 is sealed on the bottom plane of the dry road pipeline 2, and electric wires penetrate through the dry road pipeline 2;

step three; backfilling surface soil;

step four: installing an electric cabinet 5;

step five: installing a plurality of soil detectors 6, wherein the soil detectors 6 are arranged in an array mode.

In the embodiment, a sealing structure 7 is arranged on a contact surface between the wet road pipeline 1 and the water pipe 3, the sealing structure 7 is arranged on a contact surface between the wet road pipeline 1 and the nutrient solution pipe 4, the sealing structure 7 comprises a first sealing block 71, a second sealing block 72, an air cavity 73, a medium permeation strip 74 and an air expansion agent 75, the second sealing block 72 is arranged on one side of the first sealing block 71, and the first sealing block 71 is in fit contact with the second sealing block 72; the first sealing block 71 is provided with a medium permeation strip 74, one end of the medium permeation strip 74 is arranged on the surface of the first sealing block 71, the other end of the medium permeation strip 74 is connected with an air cavity 73, the air cavity 73 is arranged in the first sealing block 71, and an air expanding agent 75 is arranged in the air cavity 73.

In this embodiment, the first sealing block 71 is provided with a protrusion, the second sealing block 72 is provided with a groove, and the protrusion is arranged in the groove; the gas expansion agent 75 is essentially magnesium powder.

In this embodiment, a wire inlet 8 is arranged in the trunk pipe 2, the wire inlet 8 includes a slide rail 81, a slide block 82, a wire clamping chuck 83, a clamping spring 84, a transmission chain 85, a chain wheel 86 and a driving motor 87, the slide rail 81 is arranged at two sides of the trunk pipe 2, the slide rail 81 is slidably provided with the slide block 82, the slide block 82 is fixedly provided with the wire clamping chuck 83, one side of the wire clamping chuck 83 is provided with the clamping spring 84, one end of the clamping spring 84 is fixedly arranged on the slide block 82, and the other end of the clamping spring 84 is fixedly arranged on the wire clamping chuck 83; the slide block 82 is fixedly provided with a transmission chain 85, the transmission chain 85 is connected with a chain wheel 86, the chain wheel 86 is arranged on the inner surface of the trunk pipeline 2 through a bearing, the center of the chain wheel 86 is connected with a driving motor 87, and the driving motor 87 is fixedly arranged on the inner surface of the trunk pipeline 2.

The monitoring feedback type greening method for ecological restoration in the embodiment further comprises an anemoscope 9 and a windproof net 10, wherein the anemoscope 9 is fixedly arranged on the ground, the anemoscope 9 is connected with the electric cabinet 5, the electric cabinet 5 is connected with the windproof net 10, and the windproof net 10 is arranged on the ground.

The windproof net 10 in the embodiment comprises a sunken groove 101, an electric lifting cylinder 102 and a windproof net body 103, wherein the sunken groove 101 is polygonal, the electric lifting cylinder 102 is arranged in the sunken groove 101, the bottom of the electric lifting cylinder 102 is fixedly arranged at the bottom of the sunken groove 101, and the windproof net body 103 is fixedly arranged at the top of the electric lifting cylinder 102.

The top of the ground sinking groove 101 in this embodiment is provided with a waterproof board 104, and the waterproof board 104 is arranged obliquely.

Example 2

As shown in fig. 1 and 2, a monitoring feedback type greening method for ecological restoration specifically comprises the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline 1, penetrating a water pipe 3 and a nutrient solution pipe 4 into the wet road pipeline 1, arranging a through hole at the edge of the wet road pipeline 1, penetrating the water pipe 3 out of the through hole, and penetrating the nutrient solution pipe 4 out of the through hole;

step two: the wet road pipeline 1 is in a groove shape, a dry road pipeline 2 is laid on the top of the wet road pipeline 1, the wet road pipeline 1 is sealed on the bottom plane of the dry road pipeline 2, and electric wires penetrate through the dry road pipeline 2;

step three; backfilling surface soil;

step four: installing an electric cabinet 5;

step five: installing a plurality of soil detectors 6, wherein the soil detectors 6 are arranged in an array mode.

In the embodiment, a sealing structure 7 is arranged on a contact surface between the wet road pipeline 1 and the water pipe 3, the sealing structure 7 is arranged on a contact surface between the wet road pipeline 1 and the nutrient solution pipe 4, the sealing structure 7 comprises a first sealing block 71, a second sealing block 72, an air cavity 73, a medium permeation strip 74 and an air expansion agent 75, the second sealing block 72 is arranged on one side of the first sealing block 71, and the first sealing block 71 is in fit contact with the second sealing block 72; the first sealing block 71 is provided with a medium permeation strip 74, one end of the medium permeation strip 74 is arranged on the surface of the first sealing block 71, the other end of the medium permeation strip 74 is connected with an air cavity 73, the air cavity 73 is arranged in the first sealing block 71, and an air expanding agent 75 is arranged in the air cavity 73.

In this embodiment, the first sealing block 71 is provided with a protrusion, the second sealing block 72 is provided with a groove, and the protrusion is arranged in the groove; the gas expansion agent 75 is essentially magnesium powder.

Example 3

A method for monitoring feedback greening for ecological restoration as shown in fig. 1, 3 and 4, comprising the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline 1, penetrating a water pipe 3 and a nutrient solution pipe 4 into the wet road pipeline 1, arranging a through hole at the edge of the wet road pipeline 1, penetrating the water pipe 3 out of the through hole, and penetrating the nutrient solution pipe 4 out of the through hole;

step two: the wet road pipeline 1 is in a groove shape, a dry road pipeline 2 is laid on the top of the wet road pipeline 1, the wet road pipeline 1 is sealed on the bottom plane of the dry road pipeline 2, and electric wires penetrate through the dry road pipeline 2;

step three; backfilling surface soil;

step four: installing an electric cabinet 5;

step five: installing a plurality of soil detectors 6, wherein the soil detectors 6 are arranged in an array mode.

In this embodiment, a wire inlet 8 is arranged in the trunk pipe 2, the wire inlet 8 includes a slide rail 81, a slide block 82, a wire clamping chuck 83, a clamping spring 84, a transmission chain 85, a chain wheel 86 and a driving motor 87, the slide rail 81 is arranged at two sides of the trunk pipe 2, the slide rail 81 is slidably provided with the slide block 82, the slide block 82 is fixedly provided with the wire clamping chuck 83, one side of the wire clamping chuck 83 is provided with the clamping spring 84, one end of the clamping spring 84 is fixedly arranged on the slide block 82, and the other end of the clamping spring 84 is fixedly arranged on the wire clamping chuck 83; the slide block 82 is fixedly provided with a transmission chain 85, the transmission chain 85 is connected with a chain wheel 86, the chain wheel 86 is arranged on the inner surface of the trunk pipeline 2 through a bearing, the center of the chain wheel 86 is connected with a driving motor 87, and the driving motor 87 is fixedly arranged on the inner surface of the trunk pipeline 2.

Example 4

As shown in fig. 1 and 5, a monitoring feedback type greening method for ecological restoration specifically comprises the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline 1, penetrating a water pipe 3 and a nutrient solution pipe 4 into the wet road pipeline 1, arranging a through hole at the edge of the wet road pipeline 1, penetrating the water pipe 3 out of the through hole, and penetrating the nutrient solution pipe 4 out of the through hole;

step two: the wet road pipeline 1 is in a groove shape, a dry road pipeline 2 is laid on the top of the wet road pipeline 1, the wet road pipeline 1 is sealed on the bottom plane of the dry road pipeline 2, and electric wires penetrate through the dry road pipeline 2;

step three; backfilling surface soil;

step four: installing an electric cabinet 5;

step five: installing a plurality of soil detectors 6, wherein the soil detectors 6 are arranged in an array mode.

The monitoring feedback type greening method for ecological restoration in the embodiment further comprises an anemoscope 9 and a windproof net 10, wherein the anemoscope 9 is fixedly arranged on the ground, the anemoscope 9 is connected with the electric cabinet 5, the electric cabinet 5 is connected with the windproof net 10, and the windproof net 10 is arranged on the ground.

The windproof net 10 in the embodiment comprises a sunken groove 101, an electric lifting cylinder 102 and a windproof net body 103, wherein the sunken groove 101 is polygonal, the electric lifting cylinder 102 is arranged in the sunken groove 101, the bottom of the electric lifting cylinder 102 is fixedly arranged at the bottom of the sunken groove 101, and the windproof net body 103 is fixedly arranged at the top of the electric lifting cylinder 102.

The top of the ground sinking groove 101 in this embodiment is provided with a waterproof board 104, and the waterproof board 104 is arranged obliquely.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims (6)

1. A monitoring feedback type greening method for ecological restoration is characterized in that: the method specifically comprises the following steps:

the method comprises the following steps: digging surface soil, laying a wet road pipeline (1), penetrating a water pipe (3) and a nutrient solution pipe (4) into the wet road pipeline (1), wherein a through hole is formed in the edge of the wet road pipeline (1), the water pipe (3) penetrates out of the through hole, and the nutrient solution pipe (4) penetrates out of the through hole;

step two: the wet road pipeline (1) is of a groove shape, a dry road pipeline (2) is laid on the top of the wet road pipeline (1), the wet road pipeline (1) is sealed on the bottom plane of the dry road pipeline (2), and electric wires penetrate through the dry road pipeline (2);

step three; backfilling surface soil;

step four: installing an electric cabinet (5);

step five: installing a plurality of soil detectors (6), wherein the soil detectors (6) are arranged in an array;

the main line pipeline (2) is internally provided with a line inlet device (8), the line inlet device (8) comprises a sliding rail (81), a sliding block (82), a line clamping chuck (83), a clamping spring (84), a transmission chain (85), a chain wheel (86) and a driving motor (87), the sliding rail (81) is arranged on two sides of the main line pipeline (2), the sliding rail (81) is provided with the sliding block (82) in a sliding manner, the line clamping chuck (83) is fixedly arranged on the sliding block (82), the clamping spring (84) is arranged on one side of the line clamping chuck (83), one end of the clamping spring (84) is fixedly arranged on the sliding block (82), and the other end of the clamping spring (84) is fixedly arranged on the line clamping chuck (83); the automatic transmission device is characterized in that a transmission chain (85) is fixedly arranged on the sliding block (82), the transmission chain (85) is connected with a chain wheel (86), the chain wheel (86) is arranged on the inner surface of the trunk pipeline (2) through a bearing, a driving motor (87) is connected to the center of the chain wheel (86), and the driving motor (87) is fixedly arranged on the inner surface of the trunk pipeline (2).

2. A method of monitoring feedback greening according to claim 1, characterised in that: a sealing structure (7) is arranged on a contact surface between the wet road pipeline (1) and the water pipe (3), the sealing structure (7) is arranged on a contact surface between the wet road pipeline (1) and the nutrient solution pipe (4), the sealing structure (7) comprises a first sealing block (71), a second sealing block (72), an air cavity (73), a medium permeation strip (74) and an air expanding agent (75), the second sealing block (72) is arranged on one side of the first sealing block (71), and the first sealing block (71) is in fit contact with the second sealing block (72); the first sealing block (71) is provided with a medium permeation strip (74), one end of the medium permeation strip (74) is arranged on the surface of the first sealing block (71), the other end of the medium permeation strip (74) is connected with an air cavity (73), the air cavity (73) is arranged in the first sealing block (71), and an air expanding agent (75) is arranged in the air cavity (73).

3. A method of monitoring feedback greening according to claim 2, characterised in that: a bulge is arranged on the first sealing block (71), a groove is arranged on the second sealing block (72), and the bulge is arranged in the groove; the gas expansion agent (75) is magnesium powder in nature.

4. A method of monitoring feedback greening according to claim 1, characterised in that: the windproof and windproof electric bicycle is characterized by further comprising an anemoscope (9) and a windproof net (10), wherein the anemoscope (9) is fixedly arranged on the ground, the anemoscope (9) is connected with the electric cabinet (5), the windproof net (10) is connected with the electric cabinet (5), and the windproof net (10) is arranged on the ground.

5. A method of monitoring feedback greening according to claim 4, characterised in that: the windproof net (10) comprises a sunken ground groove (101), a lifting electric cylinder (102) and a windproof net body (103), wherein the sunken ground groove (101) is polygonal, the lifting electric cylinder (102) is arranged in the sunken ground groove (101), the bottom of the lifting electric cylinder (102) is fixedly arranged at the bottom of the sunken ground groove (101), and the windproof net body (103) is fixedly arranged at the top of the lifting electric cylinder (102).

6. A method of monitoring feedback greening according to claim 5, characterised in that: the top of the land subsidence groove (101) is provided with a waterproof plate (104), and the waterproof plate (104) is obliquely arranged.

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