CN113062334A - Three-dimensional plant net splicing and mounting device for slope greening environment protection and using method thereof - Google Patents

Abstract

The invention discloses a three-dimensional plant net splicing and mounting device for slope greening environment protection and a using method thereof, and belongs to the technical field of ecological restoration. The utility model provides a slope afforestation is three-dimensional plant net concatenation installation device for environmental protection, includes: a plurality of groups of splicing frames are arranged; the connecting pin is detachably connected to the splicing frame and is used for fixedly connecting the splicing frame to the three-dimensional planting net; wherein, the connecting pin is provided with an annular groove; the limiting block is connected to the splicing frame in a sliding mode; the buckle lug is fixedly connected to the splicing frame; the buckle grooves are arranged on the splicing frames and are matched with the buckle lugs on the adjacent splicing frames; according to the invention, the splicing frame is arranged, so that the three-dimensional planting net is conveniently fixed on the splicing frame, and further the three-dimensional planting net is conveniently spliced and assembled, so that the three-dimensional planting nets have integrity, the stability of plants is greatly improved when the plants resist strong wind or rain, the greening period of the side slope is reduced, and the greening effect is better.

Description

Three-dimensional plant net splicing and mounting device for slope greening environment protection and using method thereof

Technical Field

The invention relates to the technical field of ecological restoration and environmental protection, in particular to a three-dimensional plant net splicing and mounting device for slope greening and environmental protection and a using method thereof.

Background

The slope greening environmental protection is a novel ecological slope protection mode capable of effectively protecting bare slopes, and is combined with the traditional engineering slope protection, so that the ecological vegetation recovery of the slopes can be effectively realized, the ecological environment is ensured, and the process and construction method of slope greening comprises the following steps: a lattice beam backfill and bag piling greening method combined with the surface protection mechanism; greening method by directly spraying greening nutrient material on the hanging net;

the three-dimensional planting net is a net cushion which is used for planting grass and fixing soil and has a three-dimensional structure and is similar to a loofah net, the texture is loose and flexible, soil, gravel and fine stones can be filled in the net cushion, plant roots can penetrate through the net cushion, the turf and soil surface are firmly combined together through the grown turf;

however, when plants grow in the early stage, the root systems of the plants are not firmly fixed with soil, and in strong wind or rainy weather, the fixing stability of the three-dimensional planting net is particularly important.

Disclosure of Invention

The invention aims to solve the problems that when plants grow in the early stage, the root systems of the plants are not firmly fixed with soil, the fixing stability of a three-dimensional planting net is particularly important in strong wind or rainy weather, and when the three-dimensional planting net is paved, small three-dimensional planting nets convenient to transport are adopted, the paved net body has no integrity and is easy to fall off under the influence of environment, so that the plants are unstable in early stage planting, the plants need to be paved again, and the cycle and the effect of slope greening are influenced.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a slope afforestation is three-dimensional plant net concatenation installation device for environmental protection, includes: a plurality of groups of splicing frames are arranged; the connecting pin is detachably connected to the splicing frame and is used for fixedly connecting the splicing frame to the three-dimensional planting net; wherein, the connecting pin is provided with an annular groove; the limiting block is connected to the splicing frame in a sliding mode and clamped with the annular groove to limit the connecting pin to slide; the buckle lug is fixedly connected to the splicing frame; the buckle recess sets up on the splice frame, adjacent buckle lug phase-match on the splice frame is used for the concatenation a plurality ofly the splice frame, wherein the buckle lug inserts the in-process to the buckle recess, drives the stopper joint is in the ring channel.

For the convenience of buckle lug drives the stopper, it is preferred, still include: the control driving rod is connected in the splicing frame in a sliding mode and is matched with the buckle lug; the driving block is fixedly connected to the control driving rod and extrudes the limiting block to slide when the control driving rod slides; and two ends of the first spring are respectively and fixedly connected to the splicing frame and the control driving rod.

For the convenience of the reset of the limiting block, the preferred driving block and the limiting block are in wedge-shaped arrangement, a second spring is fixedly connected to the limiting block, and one end, far away from the driving block, of the second spring is fixedly connected to the splicing frame.

In order to prevent that the splicing frame from being damaged by the too big internal assembly of atress in the assembling process, preferred still includes the bolster, bolster sliding connection is in the buckle recess, the both ends of bolster respectively with buckle lug, control are driven the pole phase-match.

In order to further improve the stability of splicing frame, it is preferred that sliding connection has the equipment axle on the splicing frame, be equipped with the equipment groove of matcing with the equipment axle on the buckle lug.

In order to facilitate the splicing of the splicing frame, the three-dimensional planting net adapting to different sizes is preferably further provided with: the adjusting assembly is used for adjusting the distance between the splicing frames on the three-dimensional planting net on the same side; and when the adjusting component is installed, the assembling shaft is driven to be clamped in the assembling groove in a sliding manner.

Preferably, the adjustment assembly comprises: a plurality of groups of adjusting clamping grooves are arranged on the splicing frame; the adjusting straight rod is connected with the splicing frame in a sliding manner; the side edge of the adjusting straight rod is fixedly connected with an adjusting clamping rod matched with the adjusting clamping groove.

In order to fix the adjusting straight rod on the side slope, preferably, a straight shaft inserted rod is fixedly connected to the adjusting straight rod and penetrates through the splicing frame.

For the convenience of drive the assembly shaft is preferred, it is connected with the dwang to rotate on the splice rack, the dwang with straight axle inserted bar phase-match, fixedly connected with arc pole on the dwang, be equipped with on the splice rack with arc pole assorted arc wall, the arc wall with the gliding groove of assembly shaft communicates with each other.

A use method of a three-dimensional plant net splicing and mounting device for slope greening environment protection mainly comprises the following steps:

s1, fixedly mounting the splicing frames at two sides of four corners of the three-dimensional planting net;

s2, splicing the splicing frames on two adjacent three-dimensional planting nets, wherein the four splicing frames are in a cross shape, the splicing frames are fixed and cannot be stretched in the cross direction of the splicing frames in the cross shape, and the splicing frames are fixed and cannot be stretched in the direction of the contact surfaces of the splicing frames under the action of the three-dimensional planting nets;

s3, placing the spliced three-dimensional planting net on a slope, fixing two adjacent splicing frames through the adjusting assembly, enabling the three-dimensional planting net to be in a completely spread state, and meanwhile, inserting the adjusting assembly driving assembly shaft into the assembly groove to finally fix the two adjacent splicing frames.

Compared with the prior art, the invention provides a three-dimensional plant net splicing and mounting device for slope greening and environmental protection and a using method thereof, and the three-dimensional plant net splicing and mounting device has the following beneficial effects:

the parts which are not involved in the device are the same as or can be realized by adopting the prior art, the three-dimensional planting net is conveniently fixed on the splicing frame by arranging the splicing frame, and then the three-dimensional planting net is conveniently spliced and assembled, so that the three-dimensional planting nets have integrity, the stability of plants is greatly improved when the plants resist strong wind or rain, the greening period of the side slope is reduced, and the greening effect is better.

Drawings

FIG. 1 is a schematic structural diagram of a three-dimensional plant net splicing and mounting device for slope greening and environmental protection and a use method thereof, which are provided by the invention;

FIG. 2 is a schematic cross-sectional structure view of a splicing frame of the three-dimensional plant net splicing installation device for slope greening environmental protection and the use method thereof provided by the invention;

FIG. 3 is a schematic structural diagram of a splicing frame of the three-dimensional plant net splicing installation device for slope greening environmental protection and the use method thereof provided by the invention;

FIG. 4 is a schematic structural view of part A in FIG. 3 of a three-dimensional plant net splicing and mounting device for slope greening and environmental protection and a use method thereof according to the present invention;

FIG. 5 is a schematic structural view of a regulating straight rod of the three-dimensional plant net splicing and mounting device for slope greening and environmental protection and the use method thereof provided by the invention;

FIG. 6 is a schematic cross-sectional structure view of an adjusting straight rod of the three-dimensional plant net splicing and mounting device for slope greening and environmental protection and the use method thereof provided by the invention;

FIG. 7 is a schematic structural view of a straight shaft inserted rod of the three-dimensional plant net splicing installation device for slope greening environmental protection and the use method thereof provided by the invention;

FIG. 8 is a schematic structural view of an arc-shaped groove of the three-dimensional plant net splicing and mounting device for slope greening and environmental protection and the use method thereof provided by the invention;

FIG. 9 is a schematic structural diagram of a limiting plate of the three-dimensional plant net splicing and mounting device for slope greening and environmental protection and the use method thereof provided by the invention;

FIG. 10 is a schematic structural view of a regulating threaded rod of the three-dimensional plant net splicing installation device for slope greening environmental protection and the use method thereof provided by the invention;

FIG. 11 is a schematic cross-sectional view of a regulating threaded rod of the three-dimensional plant net splicing and mounting device for slope greening environmental protection and the use method thereof, according to the present invention;

fig. 12 is a schematic structural view of a portion B in fig. 11 of a three-dimensional plant net splicing and mounting device for slope greening and environmental protection and a use method thereof according to the present invention.

In the figure: 1. a three-dimensional planting net; 101. a connecting pin; 102. an annular groove; 2. splicing frames; 201. controlling the driving rod; 202. a drive block; 203. a first spring; 204. a limiting block; 205. a second spring; 206. a buffer member; 207. a buckle projection; 208. a snap groove; 209. assembling a shaft; 3. a straight rod is adjusted; 301. adjusting the clamping rod; 302. adjusting the clamping groove; 303. a straight shaft inserted link; 3031. rotating the rod; 3032. an arcuate bar; 3033. an arc-shaped slot; 304. a drive shaft; 305. a drive shaft slot; 4. adjusting the threaded rod; 401. connecting the shaft lever; 402. rotating the disc; 403. rotating the inserted link; 404. a sliding shaft; 405. an outlet pipe; 4051. an inlet tank; 406. a U-shaped elastic sheet; 407. and a limiting plate.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-12, a three-dimensional plant net splicing and mounting device for slope greening environmental protection comprises:

a plurality of groups of splicing frames 2 are arranged, and the splicing frames 2 can be assembled to realize splicing and fixing of the three-dimensional planting net 1;

the connecting pin 101 is detachably connected to the splicing frame 2 and used for fixedly connecting the splicing frame 2 to the three-dimensional planting net 1, specifically, when the three-dimensional planting net 1 is placed in a groove on the side edge of the splicing frame 2, the connecting pin 101 is inserted into the splicing frame 2, the connecting pin 101 penetrates through the splicing frame 2 and the three-dimensional planting net 1, and therefore the three-dimensional planting net 1 cannot fall off from the splicing frame 2;

the connecting pin 101 is provided with an annular groove 102, so that the three-dimensional planting net 1 can be conveniently fixed under stress, and the three-dimensional planting net 1 is prevented from falling off;

the limiting block 204 is connected to the splicing frame 2 in a sliding mode and clamped with the annular groove 102 to limit the connecting pin 101 to slide, and when the limiting block 204 is clamped on the connecting pin 101 in a sliding mode, the connecting pin 101 can be limited to move up and down, and therefore the stability of the three-dimensional planting net 1 is improved;

the buckle bump 207 is fixedly connected to the splicing frame 2, and it should be understood that one end of the splicing frame 2 is arranged in a right angle, so that the splicing frame 2 is conveniently in a cross shape after being spliced, and the buckle bump 207 extends out of the splicing frame 2;

the buckle grooves 208 are arranged on the splicing frames 2, are matched with the buckle lugs 207 on the adjacent splicing frames 2 and are used for splicing the splicing frames 2, when the splicing frames 2 are assembled in a cross shape, the two adjacent splicing frames 2 are spliced firstly, two groups are spliced by workers, and when the two splicing frames 2 are close to each other, the buckle lugs 207 can be clamped in the buckle grooves 208;

wherein,

in the process that the buckle lug 207 is inserted into the buckle groove 208, the drive limiting block 204 is clamped in the annular groove 102, the time for fixing the connecting pin 101 in the splicing process can be shortened, the splicing efficiency is greatly improved, the splicing effect of the connecting pin 101 is better, and the splicing is more stable.

Further comprising: the control driving rod 201 is connected in the splicing frame 2 in a sliding mode and matched with the buckling lug 207, and when the buckling lug 207 is inserted into the buckling groove 208, the control driving rod 201 can be pushed to slide;

the driving block 202 is fixedly connected to the control driving rod 201, the driving block 202 and the limiting block 204 are arranged in a wedge shape, the limiting block 204 is fixedly connected with a second spring 205, one end, far away from the driving block 202, of the second spring 205 is fixedly connected to the splicing frame 2, when the control driving rod 201 slides, the limiting block 204 can be extruded to slide under the action of a wedge surface, so that the limiting block 204 is inserted into the annular groove 102, and the second spring 205 is used for driving the limiting block 204 to reset when the limiting block 204 is not stressed;

the two ends of the first spring 203 are respectively and fixedly connected to the splicing frame 2 and the control driving rod 201, and the control driving rod 201 is driven to reset when not stressed.

Still include bolster 206, bolster 206 sliding connection is in buckle recess 208, and the both ends of bolster 206 drive pole 201 phase-match with buckle lug 207, control respectively, and bolster 206 includes buffer spring and buffer board, and buffer spring's both ends are pasted mutually with buffer board, control drive pole 201, and buffer board and buckle lug 207 phase-match can prevent to damage buckle lug 207.

The splicing frame 2 is connected with an assembling shaft 209 in a sliding way, and an assembling groove matched with the assembling shaft 209 is arranged on the buckling lug 207; further comprising: the adjusting assembly is used for adjusting the distance between the splicing frames 2 on the three-dimensional planting nets 1 on the same side and is suitable for the three-dimensional planting nets 1 with different sizes; when the adjusting assembly is installed, the assembling shaft 209 is driven to be slidingly clamped in the assembling groove, and the assembled clamping convex block 207 is further fixed.

According to the invention, the splicing frame 2 is arranged, so that the three-dimensional planting net 1 can be conveniently fixed on the splicing frame 2, and further the three-dimensional planting net 1 can be conveniently spliced and assembled, so that the three-dimensional planting nets 1 have integrity, the stability of plants is greatly improved when the plants resist strong wind or rain, the greening period of the side slope is reduced, and the greening effect is better.

Example 2:

referring to fig. 1-12, a method for using a three-dimensional plant net splicing and mounting device for slope greening and environmental protection mainly comprises the following steps:

s1, fixedly mounting the splicing frames 2 at two sides of four corners of the three-dimensional planting net 1:

when the three-dimensional planting net 1 is placed in the groove on the side edge of the splicing frame 2, the connecting pin 101 is inserted into the splicing frame 2, and the connecting pin 101 penetrates through the splicing frame 2 and the three-dimensional planting net 1, so that the three-dimensional planting net 1 cannot fall off from the splicing frame 2;

s2, referring to the stress direction indicated by an arrow shown in FIG. 3, splicing frames 2 to four splicing frames 2 spliced on two adjacent three-dimensional planting nets 1 are in a cross shape, at the moment, the splicing frames 2 are fixed and cannot be stretched in the cross direction of the splicing frames 2 in the cross shape, and the splicing frames 2 are fixed and cannot be stretched in the facing direction of the splicing frames 2 under the action of the three-dimensional planting nets 1;

when the assembling splicing frames 2 are arranged in a cross shape, two adjacent splicing frames 2 are spliced firstly, two groups are spliced, and the two splicing frames 2 are close to each other until the buckle lug 207 can be clamped in the buckle groove 208;

when the buckling lug 207 is inserted into the buckling groove 208, the control driving rod 201 can be pushed to slide, and under the action of the wedge-shaped surface, the control driving rod 201 and the driving block 202 can extrude the limiting block 204 to slide, so that the limiting block 204 is inserted into the annular groove 102, the connecting pin 101 can be limited to move up and down, and the stability of the three-dimensional planting net 1 is further improved;

s3, the spliced three-dimensional planting net 1 is placed on a side slope, two adjacent splicing frames 2 are fixed through the adjusting assembly, the three-dimensional planting net 1 is in a completely unfolded state, meanwhile, the adjusting assembly drives the assembling shaft 209 to be inserted into the assembling groove, the two adjacent splicing frames 2 are finally fixed, namely, the splicing frames 2 on the periphery of the three-dimensional planting net 1 can be fixed, namely, the splicing frames 2 which are not in a cross shape can be finally fixed, and the stability is better.

Example 3:

referring to fig. 1-8, substantially the same as in example 1, further:

the adjusting assembly comprises: a plurality of groups of adjusting clamping grooves 302 arranged on the splicing frame 2; the adjusting straight rod 3 is connected with the splicing frame 2 in a sliding manner;

the side edge of the adjusting straight rod 3 is fixedly connected with an adjusting clamping rod 301 matched with the adjusting clamping groove 302;

when the adjusting straight rod 3 is inserted into the splicing frame 2, the adjusting clamping rod 301 and the different adjusting clamping grooves 302 are adjusted to be suitable for the three-dimensional planting nets 1 with different sizes, and the three-dimensional planting nets 1 are in an open state.

Adjust fixedly connected with straight-axis inserted bar 303 on straight-bar 3, straight-axis inserted bar 303 runs through splice frame 2, and straight-axis inserted bar 303 can peg graft subaerial this moment, and then fixes splice frame 2 subaerial, and when needing to understand, and the side slope is the slope form, adjusts 3 joints of straight-bar and is not convenient for after splice frame 2 and drops, and stability is higher.

The splicing frame 2 is rotatably connected with a rotating rod 3031, the rotating rod 3031 is matched with the straight shaft insertion rod 303, an arc rod 3032 is fixedly connected onto the rotating rod 3031, an arc groove 3033 matched with the arc rod 3032 is arranged on the splicing frame 2, the arc groove 3033 is communicated with the sliding groove of the assembling shaft 209 through a pipeline, and the pipeline can be arranged inside the splicing frame 2.

When the straight shaft inserted bar 303 runs through the splice rack 2, the rotating rod 3031 is pushed to rotate first, and then the rotating rod 3031 drives the arc rod 3032 to slide and insert in the arc groove 3033, so that the gas in the arc groove 3033 can enter the sliding groove of the assembly shaft 209, and further the assembly shaft 209 is promoted to slide and insert to fix the buckle bump 207.

Example 4:

referring to fig. 1 to 8, basically the same as in embodiment 3, except that when the adjusting straight rod 3 drives the assembling shaft 209 to slide, the following structure may be adopted:

adjust fixedly connected with drive shaft 304 on the straight-bar 3, fixedly connected with and drive shaft 304 assorted drive shaft groove 305 on the splice frame 2, drive shaft groove 305 communicates with the gliding groove of equipment axle 209, and drive shaft 304 makes gaseous direct promotion equipment axle 209 slide in pegging graft drive shaft groove 305.

Example 5:

referring to fig. 1 to 4 and 9 to 12, basically the same as embodiment 1, except that the adjusting assembly may also adopt the following structure:

the connecting shaft rod 401 is fixedly connected to the splicing frame 2, and specifically, the connecting shaft rod 401 and the splicing frame 2 are integrally formed;

the adjusting threaded rod 4 is in threaded connection with the connecting shaft rods 401 and used for fixing the two connecting shaft rods 401, specifically, when the distance between the two splicing frames 2 on the same side is adjusted, the adjusting threaded rod 4 is rotated, and when the distance between the two splicing frames 2 is adjusted, the adjusting threaded rod is adjusted from short to long, so that the three-dimensional planting net 1 can be laid out conveniently, and the length of the splicing frames 2 can be adjusted more accurately by the adjusting mode of the threads;

the rotary inserting rod 403 is rotatably connected to the splicing frame 2 and is used for being inserted into the ground to fix the splicing frame 2;

the sliding shaft 404 is slidably connected to the splicing frame 2 and is inserted into the rotating insertion rod 403, specifically, when the sliding shaft 404 is inserted into the rotating insertion rod 403, the rotating insertion rod 403 is fixed, so that the stability of the splicing frame 2 fixed on the ground is improved;

the rotating disc 402 is connected with the adjusting threaded rod 4 in a sliding mode and is connected with the connecting shaft rod 401 in a rotating mode, specifically, a sliding groove is formed in the adjusting threaded rod 4, and a sliding block matched with the sliding groove is arranged on the rotating disc 402, so that when the relative position between the adjusting threaded rod 4 and the connecting shaft rod 401 changes, the rotating disc 402 is always attached to the connecting shaft rod 401 in a rotating mode;

wherein, a cavity is arranged between the rotating disc 402 and the connecting shaft lever 401, an outlet pipe 405 is arranged on the connecting shaft lever 401, the outlet pipe 405 is communicated with the sliding shaft 404 and the sliding groove of the assembling shaft 209, an inlet groove 4051 is arranged on the rotating disc 402, a one-way valve is arranged on the inlet groove 4051 and the outlet pipe 405, and a pressure release valve is arranged on the outlet pipe 405;

the limiting plate 407 is rotatably connected to the connecting shaft rod 401, two ends of the limiting plate 407 are provided with U-shaped elastic pieces 406, and the other end of each U-shaped elastic piece 406 is connected to the connecting shaft rod 401;

when the connecting shaft rod 401 and the rotating disc 402 rotate relatively, a rubber plate for extruding gas is arranged in the rotating disc 402, referring to fig. 9, the rotating disc 402 can extrude the gas in the right side of the cavity into the outlet pipe 405, the gas in the left side of the cavity is supplemented through the inlet groove 4051, and then the gas can extrude the sliding shaft 404 and the assembling shaft 209 to slide, so that the assembling shaft 209 is promoted to be clamped in the assembling groove, and the sliding shaft 404 is promoted to be clamped in the rotating inserted rod 403;

when the rubber plate is attached to the limiting plate 407, the limiting plate 407 is pressed to rotate, the U-shaped elastic sheet 406 is compressed, so that the rubber plate can pass over the limiting plate 407, and when the inlet groove 4051 also passes over the limiting plate 407, the next gas collection is performed on the outlet pipe 405 conveniently;

and then when realizing the regulation to the distance between two splice frames 2, be convenient for adjust assembly axis 209 for stability between two adjacent splice frames 2 is better, can promote the fastness that splice frame 2 fixed on ground simultaneously.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a slope afforestation is three-dimensional plant net concatenation installation device for environmental protection, its characterized in that includes:

a plurality of groups of splicing frames (2) are arranged;

the connecting pin (101) is detachably connected to the splicing frame (2) and is used for fixedly connecting the splicing frame (2) to the three-dimensional planting net (1);

wherein, an annular groove (102) is arranged on the connecting pin (101);

the limiting block (204) is connected to the splicing frame (2) in a sliding mode and clamped with the annular groove (102) to limit the connecting pin (101) to slide;

the buckling lug (207) is fixedly connected to the splicing frame (2);

the buckling grooves (208) are arranged on the splicing frames (2) and are matched with the buckling lugs (207) on the adjacent splicing frames (2) for splicing a plurality of splicing frames (2),

wherein,

in the process that the buckling lug (207) is inserted into the buckling groove (208), the limiting block (204) is driven to be clamped in the annular groove (102).

2. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection as recited in claim 1, further comprising:

the control driving rod (201) is connected in the splicing frame (2) in a sliding mode and is matched with the buckling lug (207);

the driving block (202) is fixedly connected to the control driving rod (201), and the limiting block (204) is extruded to slide when the control driving rod (201) slides;

and two ends of the first spring (203) are respectively and fixedly connected to the splicing frame (2) and the control driving rod (201).

3. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection according to claim 2, wherein the driving block (202) and the limiting block (204) are arranged in a wedge shape, a second spring (205) is fixedly connected to the limiting block (204), and one end of the second spring (205) far away from the driving block (202) is fixedly connected to the splicing frame (2).

4. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection as claimed in claim 3, further comprising a buffer member (206), wherein the buffer member (206) is slidably connected in the snap groove (208), and two ends of the buffer member (206) are respectively matched with the snap projection (207) and the control driving rod (201).

5. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection according to claim 1, wherein an assembling shaft (209) is connected to the splicing frame (2) in a sliding manner, and an assembling groove matched with the assembling shaft (209) is formed in the buckling convex block (207).

6. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection as recited in claim 5, further comprising:

the adjusting assembly is used for adjusting the distance between the splicing frames (2) on the three-dimensional planting net (1) on the same side;

wherein, when the adjusting component is installed, the assembling shaft (209) is driven to be clamped in the assembling groove in a sliding way.

7. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection as recited in claim 6, wherein said adjusting component comprises:

a plurality of groups of adjusting clamping grooves (302) are arranged on the splicing frame (2);

the adjusting straight rod (3) is connected with the splicing frame (2) in a sliding manner;

the side edge of the adjusting straight rod (3) is fixedly connected with an adjusting clamping rod (301) matched with the adjusting clamping groove (302).

8. The splicing and mounting device for three-dimensional plant nets for slope greening and environmental protection according to claim 7, wherein a straight shaft inserted bar (303) is fixedly connected to the adjusting straight bar (3), and the straight shaft inserted bar (303) penetrates through the splicing frame (2).

9. The three-dimensional plant net splicing and mounting device for slope greening and environmental protection as claimed in claim 7, wherein a rotating rod (3031) is rotatably connected to the splicing frame (2), the rotating rod (3031) is matched with the straight shaft inserting rod (303), an arc rod (3032) is fixedly connected to the rotating rod (3031), an arc groove (3033) matched with the arc rod (3032) is formed in the splicing frame (2), and the arc groove (3033) is communicated with the sliding groove of the assembling shaft (209).

10. The use method of the three-dimensional plant net splicing and mounting device for slope greening and environmental protection according to any one of claims 2 to 6 is characterized by mainly comprising the following steps:

s1, fixedly installing the splicing frames (2) at two sides of four corners of the three-dimensional planting net (1);

s2, splicing frames (2) on two adjacent three-dimensional planting nets (1) to four splicing frames (2) are in a cross shape, at the moment, the splicing frames (2) are fixed and cannot be stretched in the cross direction of the splicing frames (2) in the cross shape, and the splicing frames (2) are fixed and cannot be stretched in the direction of the facing surfaces of the splicing frames (2) under the action of the three-dimensional planting nets (1);

s3, the spliced three-dimensional planting net (1) is placed on a slope, the adjusting component fixes the two adjacent splicing frames (2), the three-dimensional planting net (1) is in a completely spread state, meanwhile, the adjusting component drives the assembling shaft (209) to be inserted into the assembling groove, and the splicing frames (2) are finally fixed.

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