CN112352495A - Ecological rod body laying method applied to green mine treatment - Google Patents

Abstract

The utility model relates to a be applied to ecological body of rod laying method that green mine was administered, cover the ecological net and fix on soil matrix surface, the matrix surface is when receiving the rainwater washing, the ecological net can play the effect that blocks the buffering, insert the ecological body of rod on the soil matrix, and be connected the ecological net with the ecological body of rod, thereby the firm degree of ecological net has been improved, and simultaneously, be provided with the cavity at the ecological body of rod, and the upper end opening sets up, thereby can plant the sapling in the ecological body of rod, the seting up of through-hole, do benefit to sapling root system growth, in order to obtain the nutrient substance and the moisture of soil matrix, plant the sapling in ecological body of rod cavity, treat that the sapling grows to accomplish the back, can improve the protection benefit to mine ecological environment, and ecological body of rod outer wall plays the guard action to the sapling, be favorable to improving the. Therefore, the laying method reduces the influence of adverse factors such as rainstorm and the like on the normal growth of the plants.

Description

Ecological rod body laying method applied to green mine treatment

Technical Field

The application relates to the field of mine ecological restoration, in particular to an ecological rod body laying method applied to green mine treatment.

Background

With the rapid development of the mining industry in China, a large amount of tailing waste residues are generated. The treatment and disposal of the waste residues generally adopt a tailing pond mode for storage, not only occupies a large amount of land, but also pollutes soil, underground water and surface water through the actions of acidification, rainfall leaching and the like, and along with the popularization of the concept of green mines, mine treatment measures are gradually developed.

At present, the mine treatment technology mainly adopts a mode of combining a soil matrix construction technology and a vegetation planting technology. The soil matrix construction technology is to cover soil on the surface of a mine to form a soil matrix which is easy for plant growth on the surface of the mine soil, spray seeding greening technologies (foreign soil spray seeding, aggregate spray seeding and hydraulic spray seeding) are commonly adopted for vegetation planting, and the growth of plant roots has a soil fixing effect on soil, so that the soil matrix has certain anti-scouring capacity.

With respect to the related art in the above, the inventors consider that: because the growth of the plant root system needs a certain time, the soil fixing capacity of the vegetation which is just sown is limited, so that the growth of the plant is easily influenced by bad weather factors such as rainstorm scouring and the like, and the improvement space is still provided.

Disclosure of Invention

In order to reduce the influence of adverse factors such as rainstorm on the normal growth of vegetation, the application provides an ecological rod body laying method applied to green mine treatment

The application provides an ecological rod body laying method for green mine treatment adopts following technical scheme:

an ecological rod body laying method applied to green mine treatment comprises the following steps:

the method comprises the following steps: prefabricating an ecological rod body, and inserting the ecological rod body into a soil matrix;

step two: covering the surface of the soil matrix with an ecological net;

step three: connecting the ecological rod body with an ecological net;

step four: fixing an ecological net;

the ecological rod body is internally provided with a cavity for accommodating saplings, the upper end of the ecological rod body is provided with an opening, and the outer wall of the ecological rod body penetrates through a plurality of through holes communicated with the cavity.

By adopting the technical scheme, the ecological net covers the surface of the soil matrix and is fixed, and when the surface of the matrix is washed by rainwater, the ecological net can play a role in blocking and buffering, so that the influence of rainwater washing on the normal growth of plants is reduced; insert the ecological body of rod on the soil matrix, and be connected the ecological net with the ecological body of rod, thereby the firm degree of ecological net has been improved, reduce the probability that the ecological net receives the rainwash and breaks away from with the soil matrix surface, and simultaneously, be provided with the cavity at the ecological body of rod, and the upper end opening sets up, thereby can plant the sapling in the ecological body of rod, seting up of through-hole, do benefit to sapling root system growth, in order to obtain soil matrix's nutrient substance and moisture, because trees have the characteristics of preventing wind and fixing sand, be favorable to improving the protection benefit to mine ecological environment, and, planting ecological body of rod outer wall plays the guard action to the sapling, be favorable to improving the lodging resistance ability of sapling.

Preferably, the ecological rod body includes a plurality of arcs, and a plurality of the arcs are spliced end to form the barrel that is used for holding the sapling, ecological rod still includes the grafting portion that seals ecological rod body lower extreme open-ended, each all be provided with the screw thread locking lever between arc and the grafting portion, each the screw thread locking lever runs through the arc and with grafting portion threaded connection along arc direction of height, each the one end that grafting portion was kept away from to the screw thread locking lever all is provided with spacing outer edge, works as when screw thread locking lever lock solid arc and grafting portion, spacing outer edge supports the arc and keeps away from the one end of grafting portion.

By adopting the technical scheme, the ecological rod body is divided into a plurality of arc-shaped plates and the inserting parts at the bottom, the screw thread lock rod penetrates through the arc-shaped plate along the height direction of the arc-shaped plate and locks the arc-shaped plate at the inserting part in a screw thread way, thereby facilitating the insertion of the arc-shaped plates for wrapping the seedlings into the soil matrix along with the inserting parts, when the ecological rod body is firmly fixed on the soil matrix, the screw thread lock rod can be separated from the plug-in part by rotating the limit outer edge of the end part of the screw thread lock rod, thereby realizing the unlocking between the arc-shaped plates and the inserting part, when the sapling grows and becomes thicker gradually, the four arc-shaped plates wrapping the sapling are spread, the arc-shaped plates and the inserting part are removed, the influence of the ecological rod body on the normal growth of the sapling is reduced, and when the sapling grows vigorously, and when the root is pricked on the mine, the protection of the ecological rod body is not needed at this moment, and the arc-shaped plate can be recovered, thereby being beneficial to improving the utilization rate of the arc-shaped plate.

Preferably, the inserting part is conical, and the tip of the inserting part is arranged away from the arc-shaped plate.

Through adopting above-mentioned technical scheme, make ecological body of rod lower extreme sharp-pointed setting to through the area of contact that reduces the grafting portion of the ecological body of rod and soil matrix, in order to reach the purpose that the planting personnel are convenient for insert the ecological body of rod in the soil matrix.

Preferably, one end of each arc-shaped plate, which is far away from the insertion part, is provided with a mounting groove communicated with the through holes, and a baffle plate for blocking the through holes is inserted in the mounting groove.

Through adopting above-mentioned technical scheme, insert the baffle in the mounting groove and cut off the through-hole for the week side of the ecological body of rod is sealed, when needs cultivate the sapling with the ecological body of rod in advance, can fill up soil at ecological body of rod cavity bottom, and plant the sapling in the ecological body of rod in advance, be favorable to keeping higher vitality in sapling long-distance transport process, the baffle seals the through-hole, is favorable to reducing because of earth spills the condition of making dirty transportation carriage from the through-hole.

Preferably, the threaded locking rod comprises an inserting rod in threaded connection with the inserting part and a sleeve rotatably sleeved on the peripheral surface of the inserting rod; a bulge is arranged on the outer peripheral surface of the middle part of the inserted rod, and an annular groove for clamping and sliding the bulge is formed in the inner side wall of the sleeve; the baffle is fixedly connected with the outer side of the sleeve.

Through adopting above-mentioned technical scheme, with baffle and sleeve fixed connection, and make the sleeve rotate and cup joint in the inserted bar outer peripheral face, the sleeve cup joints through arch and the slip realization of ring channel joint with the rotation of inserted bar, thereby when rotating the inserted bar and ordering about inserted bar and grafting portion separation, the inserted bar takes place relative rotation with the sleeve, the mounting groove is greater than the baffle and plays the guide effect, when taking out the inserted bar, also take out in the lump together with the baffle, also open the through-hole when carrying out the unblock to arc-shaped plate and grafting portion, be favorable to the staff to simplify the ecological body of rod and lay the step.

Preferably, a plurality of plastic connecting pieces distributed along the height direction of the arc-shaped plates are arranged between the adjacent arc-shaped plates, and each plastic connecting piece is embedded in the outer side wall of each two adjacent arc-shaped plates.

By adopting the technical scheme, the plastic connecting pieces are connected between the adjacent arc-shaped plates, so that after the arc-shaped plates and the inserting part are unlocked, the plastic connecting pieces play a role in connection, when the arc-shaped plates are impacted by rainwater, the impact force faces to the axis of the ecological rod body, the side walls of the adjacent arc-shaped plates interact with each other, and the plastic connecting role is combined, so that the problem of dislocation of the adjacent arc-shaped plates is solved, and the probability that the arc-shaped plates are scattered by rainwater is favorably reduced; and when the sapling constantly grows and the trunk becomes thick gradually, the trunk gives the effort of arc and keeps away from the axis of the ecological body of rod, does not have the effort between the adjacent arc lateral wall, and the trunk is toward keeping away from the direction removal each other toward adjacent arc when expanding outward, owing to compare in the rigidity material, plastic connector tensile strength is low for plastic connector easily splits, and the trunk of being convenient for struts.

Preferably, the outer wall of each arc-shaped plate is provided with a circular ring, and the circular rings are bound with the ecological net through iron wires.

Through adopting above-mentioned technical scheme, set up the ring in the arc outside to for fixing ecological network provides the fixed point of connection, be favorable to ecological network's fixed.

Preferably, the method further comprises the following steps:

step six: rotating the limiting outer edge to drive the insertion rod to be separated from the insertion part;

step seven: the plug rod is pulled out in the direction far away from the plug part and taken out from the opening of the mounting groove together with the baffle;

step eight: and filling soil into the cavity of the ecological rod body.

Through adopting above-mentioned technical scheme, when unblock arc and grafting portion, the staff drives about the inserted bar through rotating spacing outer edge and rotates, under the limiting action of mounting groove, follows the inserted bar with the baffle and shifts out the mounting groove in the lump to open the through-hole, fill out soil in the cavity toward the ecological body of rod after that, thereby for the sapling provides suitable growing environment, be favorable to the normal growth of sapling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the ecological net is laid on the surface of the soil matrix, so that the influence of rain wash on the growth of the plant matrix is favorably reduced, the ecological net is fixed in the ecological rod body, and the ecological rod body is inserted into the soil matrix, so that the stability of the ecological net is favorably improved, and meanwhile, saplings are planted in the cavities of the ecological rod body, so that the wind resistance and sand fixation capacity of a mine are favorably realized;

2. through dividing into a plurality of arcs and a grafting portion with the ecological body of rod to with fixed arc and grafting portion of screw thread locking lever, be convenient for insert a plurality of arcs together in soil matrix, can take out screw thread locking lever with unblock arc and grafting portion after the grafting is accomplished simultaneously, thereby when the sapling grows to become thick, a plurality of arcs can be propped open, are favorable to reducing the influence of the ecological body of rod to the sapling growth.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic view of a connection structure of the ecological rod body and the rubber cover in the embodiment of the present application.

Fig. 3 is an exploded view of an ecological rod body in the embodiment of the present application.

Fig. 4 is a schematic view of the internal structure of the threaded locking bar in the embodiment of the present application.

Description of reference numerals: 1. a soil matrix; 2. an ecological rod body; 21. an arc-shaped plate; 211. a circular ring; 212. a through hole; 213. mounting holes; 214. mounting grooves; 22. a plug-in part; 221. a threaded hole; 23. a rubber cover; 231. air holes are formed; 24. a plastic connector; 241. the abdomen; 242. a flange portion; 243. a notch; 3. an ecological net; 4. sapling; 5. a cavity; 6. a threaded locking bar; 61. inserting a rod; 611. limiting the outer edge; 612. a protrusion; 62. a sleeve; 621. and a baffle plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an ecological rod body laying method applied to green mine treatment. Referring to fig. 1, an ecological rod body laying method applied to green mine treatment comprises the following steps:

the method comprises the following steps: prefabricating an ecological rod body 2, and vertically inserting the ecological rod body 2 into the soil matrix 1;

step two: covering the surface of the soil matrix 1 with an ecological net 3;

step three: connecting the ecological rod body 2 with an ecological net 3;

step four: fixing an ecological net 3;

referring to fig. 1 and 2, the ecological body of rod 2 includes four arcs 21, the barrel that the concatenation of four arcs 21 head and the tail formed the both ends opening and set up, ecological body of rod 2 is still including the 2 one end open-ended grafting portion 22 of the ecological body of rod of closure, grafting portion 22 is coniform, the sharp end of grafting portion 22 deviates from arc 21 and sets up, grafting portion 22 is grafting portion 22's holding surface towards one side of arc 21, a plurality of 21 inside walls of arc form the cavity 5 that holds sapling 4 with grafting portion 22's holding surface, make ecological body of rod 2 possess simultaneously and plant fixed ecological net 3 and cultivate sapling 4's function, ecological net 3 and ecological body of rod 2 all play the effect that the buffering blockked, be favorable to plant substrate and sapling 4's normal growth. The outer wall of each arc plate 21 is fixed with a circular ring 211, and the ecological net 3 can be bound and fixed with the circular ring 211 through iron wires, so that a connection fixing point is provided for the ecological net 3, and the ecological net 3 can be a metal net, a resin net and the like.

Referring to fig. 1 and 2, the arc plate 21 penetrates through a plurality of uniformly distributed through holes 212 along the thickness direction of the arc plate, so that the cavity 5 of the ecological rod body 2 is communicated with the outside of the ecological rod body 2, the water of the soil matrix 1 can permeate into the ecological rod body 2, and the growth of the saplings 4 can be facilitated.

Referring to fig. 2 and 3, a threaded locking rod 6 is mounted between each arc plate 21 and the supporting surface of the insertion part 22. The middle part of one side of the arc plate 21 departing from the insertion part 22 is penetrated with the mounting hole 213 for the threaded locking rod 6 to insert along the height direction of the arc plate 21, the supporting surface of the insertion part 22 is provided with four threaded holes 221 corresponding to the four threaded locking rods 6 one by one, and the threaded locking rod 6 is connected with the corresponding threaded hole 221 towards one end of the insertion part 22 in a threaded manner. One end of the threaded lock rod 6, which is far away from the insertion part 22, is provided with a limiting outer edge 611, and the limiting outer edge 611 is in a round cake shape. The axis of the limiting outer edge 611 is coincident with the axis of the threaded locking rod 6, and the diameter of the limiting outer edge 611 is larger than that of the threaded locking rod 6. When the threaded locking rod 6 is fixed with the corresponding threaded hole 221 in a threaded manner, one side of the limiting outer edge 611 facing the threaded locking rod 6 abuts against one side of the arc-shaped plate 21 facing the insertion part 22. Fix four arc plates 21 and grafting portion 22 through four screw locking levers 6, be favorable to inserting four arc plates 21 in soil matrix 1 along with grafting portion 22 in the lump, be favorable to improving the laying efficiency of the ecological body of rod 2.

Referring to fig. 2 and 3, one end of the arc plate 21 away from the insertion part 22 is provided with two mounting grooves 214 communicated with the through holes 212, the two mounting grooves 214 are located at two sides of the mounting hole 213 and communicated with the mounting hole 213, and an opening at the upper end of the mounting groove 214 is arc-shaped. A baffle 621 blocking the plurality of through holes 212 is inserted into the mounting groove 214, and the baffle 621 is adapted to the mounting groove 214. In the long-distance transportation of the sapling 4, the ecological rod body 2 can be used as a container to cultivate the sapling 4, and the baffle 621 is used for separating the through hole 212, so that the probability of the soil in the ecological rod body 2 leaking from the through hole 212 is favorably reduced. Seal open-ended rubber lid 23 is installed to ecological body of rod 2 upper end, and rubber lid 23 middle part runs through have with the bleeder vent 231 of 5 intercommunications of cavity, and in 4 transportation of sapling, rubber lid 23 seals 2 upper end openings of ecological body of rod and reserves bleeder vent 231, is favorable to improving the heat preservation effect of this ecological body of rod 2, is favorable to providing suitable living condition for sapling 4 under cold weather, is favorable to improving the survival rate of sapling 4.

Referring to fig. 3 and 4, the threaded locking bar 6 includes an insert rod 61 in threaded connection with the threaded hole 221 and a sleeve 62 rotatably sleeved on the outer peripheral surface of the insert rod 61; the limiting outer edge 611 is fixed at one end of the insertion rod 61 far away from the insertion hole. A bulge 612 is fixed on the outer peripheral surface of the middle part of the inserted rod 61, and the bulge 612 is annular and surrounds the inserted rod 61. The sleeve 62 has an annular groove (not shown) formed in its inner side wall for the protrusion 612 to snap-fit and slide. The outer side wall of the sleeve 62 is fixedly connected with the baffle 621 on both sides. The threaded locking rod 6 is taken out of the mounting hole 213 and the baffle 621, so that the arc-shaped plate 21 and the insertion part 22 are unlocked and the through hole 212 is opened, thereby facilitating the simplification of the ecological rod body 2 laying step by the worker.

Referring to fig. 2 and 3, a plurality of plastic connectors 24 distributed along the height direction of the arc plates 21 are connected between the adjacent arc plates 21, and each plastic connector 24 is embedded in the outer side wall of each two adjacent arc plates 21. The plastic connecting member 24 has an "i" shape, and the plastic connecting member 24 includes a web portion 241 and flange portions 242 at both ends of the web portion 241. The two ends of the abdomen 241 extend towards the space between the two adjacent arc-shaped plates 21 respectively, and the two long-side walls of the abdomen 241 of the plastic connecting piece 24 are both provided with notches 243, so that the cross sectional area of the plastic connecting piece 24 in the vertical direction is favorably reduced, and the pulling force required for forcing the plastic connecting piece 24 to break is further reduced. The plastic connecting piece 24 is connected between the adjacent arc-shaped plates 21, so that the adjacent arc-shaped plates 21 still keep a connecting state after the arc-shaped plates 21 and the inserting part 22 are unlocked, the probability that the arc-shaped plates 21 are scattered by rainwater is reduced, and the plastic connecting piece 24 is conveniently broken when the trunk is thick. After the ecological rod body 2 is inserted into the soil matrix 1, the plastic connecting piece 14 is positioned outside the soil matrix 1, which is beneficial to reducing the adverse effect of soil pollution caused by the plastic connecting piece 24

The ecological rod body laying method applied to green mine treatment further comprises the following steps:

step six: the limiting outer edge 611 is rotated to drive the insertion rod 61 to be separated from the insertion part 22;

step seven: the plug rod 61 is pulled out in the direction away from the plug part 22, and taken out from the opening of the mounting groove 214 together with the baffle 621 fixedly connected with the sleeve 62;

step eight: filling soil into the cavity 5 of the ecological rod body 2 and watering.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an ecological body of rod laying method for green mine is administered which characterized in that: the method comprises the following steps:

the method comprises the following steps: prefabricating an ecological rod body (2), and inserting the ecological rod body (2) into the soil matrix (1);

step two: covering the surface of the soil matrix (1) with an ecological net (3);

step three: connecting the ecological rod body (2) with an ecological net (3);

step four: a fixed ecological net (3);

ecological body of rod (2) inside is provided with cavity (5) that are used for holding sapling (4), ecological body of rod (2) upper end opening sets up, ecological body of rod (2) outer wall run through have a plurality of with through-hole (212) of cavity (5) intercommunication.

2. The ecological rod body laying method applied to green mine treatment according to claim 1, characterized in that: the ecological rod body (2) comprises a plurality of arc-shaped plates (21), the arc-shaped plates (21) are connected end to form a barrel body used for containing tree seedlings (4), the ecological rod further comprises an insertion part (22) for closing the lower end opening of the ecological rod body (2), a threaded locking rod (6) is arranged between each arc-shaped plate (21) and the insertion part (22), each threaded locking rod (6) penetrates through each arc-shaped plate (21) in the height direction of the arc-shaped plate (21) and is in threaded connection with the insertion part (22), one end, far away from the insertion part (22), of each threaded locking rod (6) is provided with a limiting outer edge (611), and when the threaded locking rod (6) locks the arc-shaped plates (21) and the insertion part (22), the limiting outer edge (611) abuts against one end, far away from the insertion part (22), of the arc-shaped plate (21).

3. The ecological rod body laying method applied to green mine treatment according to claim 2, characterized in that: the plug-in part (22) is conical, and the tip of the plug-in part (22) deviates from the arc-shaped plate (21).

4. The ecological rod body laying method applied to green mine treatment according to claim 2, characterized in that: one end of each arc-shaped plate (21) far away from the inserting part (22) is provided with a mounting groove (214) communicated with the through holes (212), and a baffle plate (621) blocking the through holes (212) is inserted in the mounting groove (214).

5. The ecological rod body laying method applied to green mine treatment according to claim 4, characterized in that: the threaded lock rod (6) comprises an insert rod (61) in threaded connection with the insertion part (22) and a sleeve (62) rotatably sleeved on the peripheral surface of the insert rod (61); a bulge (612) is arranged on the outer peripheral surface of the middle part of the insert rod (61), and an annular groove for clamping and sliding the bulge (612) is formed in the inner side wall of the sleeve (62); the baffle (621) is connected with the outside of the sleeve (62).

6. The ecological rod body laying method applied to green mine treatment according to claim 5, characterized in that: a plurality of plastic connecting pieces (24) distributed along the height direction of the arc-shaped plates (21) are arranged between the adjacent arc-shaped plates (21), and each plastic connecting piece (24) is embedded in the outer side walls of the two adjacent arc-shaped plates (21).

7. The ecological rod body laying method applied to green mine treatment according to claim 6, characterized in that: the outer wall of each arc-shaped plate (21) is provided with a circular ring (211), and the circular rings (211) are bound with the ecological nets (3) through iron wires.

8. The ecological rod body laying method applied to green mine treatment according to claim 7, characterized in that: further comprising the steps of:

step six: the limiting outer edge (611) is rotated to drive the insertion rod (61) to be separated from the insertion part (22);

step seven: the plug rod (61) is pulled out in the direction away from the plug part (22) and taken out from the opening of the mounting groove (214) together with the baffle plate (621);

step eight: filling soil into the cavity (5) of the ecological rod body (2).

Images