CN209768322U - rapid plant greening mechanism under simulated steep slope rock wall - Google Patents

Abstract

The utility model discloses a plant covers green mechanism fast under simulation abrupt slope cliff, including abrupt slope simulation panel, be used for supporting the regulation support of adjusting abrupt slope simulation panel inclination and install the mechanism of watering that provides moisture for green planting on abrupt slope simulation panel, adjust the support and include horizontal accommodation frame and perpendicular to horizontal accommodation frame and install vertical support frame as an organic whole with horizontal accommodation frame, be provided with a plurality of draw-in grooves on the horizontal accommodation frame, abrupt slope simulation panel back downside install with draw-in groove complex panel vaulting pole, the bearing that the multiunit is used for injecing marble keel position is installed from top to bottom in proper order on the abrupt slope simulation panel upper surface and is supported. The utility model discloses controllable, variably carry out the research that the different inclination of abrupt slope cliff possess characteristic reduces simulation vegetation and cultivates and growth situation, overcome the difficulty and the limitation of studying on the spot, plant covers green directness, accuracy and high efficiency under the abrupt slope cliff, makes "on the spot" study abrupt slope cliff plant cover green problem fast and become possible.

Description

Rapid plant greening mechanism under simulated steep slope rock wall

Technical Field

The utility model belongs to the technical field of cover green simulation fast, concretely relates to green mechanism is covered fast to plant under simulation abrupt slope cliff.

Background

with the large-scale progress of urbanization and traffic construction in China, a large number of mountains and slopes are excavated in projects such as water conservancy projects, electric power projects, bridges and culverts, tunnels, mines and the like in engineering construction, the appearance of the exposed rocky slopes destroys the original vegetation cover layers and biological communities of the slopes, and the rocky walls of the slopes losing vegetation protection face water and soil imbalance, so that ecological disastrous effects such as water and soil loss, desertification and the like are easily caused under natural conditions. At present, the steep slope rock wall uncovering phenomenon frequently occurs, and how to make the steep slope rock wall be green as soon as possible and have landscape characteristics becomes a difficult problem to be solved urgently at present. The existing treatment modes mainly use plant growing bag greening technology, CCF high-order pellet fiber cellular greening, foreign soil spray seeding technology and the like. However, in practice, due to different regional conditions and natural climates, it is difficult to ensure uniform universality in greening technology, bare rock slopes have large slopes under natural conditions, and the slopes do not have nutrient and moisture conditions required for plant growth, and in addition, the limiting factors are complicated in different regional environments, so that direct field research obviously requires huge engineering amount and is not representative.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem lie in to above-mentioned prior art not enough, provide a plant covers green mechanism fast under simulation abrupt slope cliff, its modern design is reasonable, controllable, variably carry out the research that abrupt slope cliff different inclination possessed the characteristic and carry out reduction simulation vegetation and cultivate and the growth situation, overcome the difficulty and the limitation of research on the spot, plant covers green directness, accurate and high-efficient under the abrupt slope cliff, make "on the spot" research abrupt slope cliff plant cover green problem fast down become possible, convenient to popularize and use.

in order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a quick green mechanism of plant under simulation abrupt slope cliff which characterized in that: the automatic water filling device comprises a steep slope simulation panel, a regulating support and a water filling mechanism, wherein the regulating support is used for supporting and regulating the inclination angle of the steep slope simulation panel, the water filling mechanism is arranged on the steep slope simulation panel and provides water for green plants, the regulating support comprises a horizontal regulating frame and a vertical supporting frame which is perpendicular to the horizontal regulating frame and is integrally installed with the horizontal regulating frame, a plurality of clamping grooves are formed in the horizontal regulating frame, the top of the steep slope simulation panel is hinged with the top of the vertical supporting frame, panel supporting rods matched with the clamping grooves are installed on the lower side of the back of the steep slope simulation panel, a plurality of groups of bearing supports for limiting the positions of marble keels are sequentially installed on the upper surface of the steep slope simulation panel from top to bottom, the number of the marble keels is equal to that of the number of the bearing supports, the bearing supports comprise two L-shaped bearing supporting sheets which are oppositely arranged, and a plurality of, the marble keel is a dustpan-type marble keel consisting of a rectangular marble bottom plate, a first rectangular marble side plate, a second rectangular marble side plate and a third rectangular marble side plate which are all perpendicular to the rectangular marble bottom plate.

Foretell quick green mechanism of plant under simulation abrupt slope cliff, its characterized in that: the mechanism of watering include with the drip irrigation emitter of water tank intercommunication and with the house steward is driped irrigation that drip irrigation emitter output is connected, the intercommunication has a plurality of one-level branch pipes on the length direction of house steward, the intercommunication has a plurality of second grade branch pipes on the one-level branch pipe, the one end that the one-level branch pipe was kept away from to the second grade branch pipe is installed the autogiration shower nozzle, the one end that the house steward was kept away from to the one-level branch pipe is installed one-level branch pipe end cap, it installs at abrupt slope simulation panel side along abrupt slope simulation panel direction of height to drip irrigation the house steward, one-level branch pipe perpendicular to drip irrigation house steward and parallel stretch into to abrupt slope simulation panel back and abrupt slope simulation panel fixed connection, the.

Foretell quick green mechanism of plant under simulation abrupt slope cliff, its characterized in that: the inner surface of the dustpan type marble keel is provided with a plurality of marble protrusions.

Foretell quick green mechanism of plant under simulation abrupt slope cliff, its characterized in that: the quantity of horizontal adjustment frame is two, and two horizontal adjustment frame parallels to be laid, and the quantity of vertical support frame, the quantity of panel vaulting pole all are equal and the one-to-one with the quantity of horizontal adjustment frame.

Foretell quick green mechanism of plant under simulation abrupt slope cliff, its characterized in that: first rectangle marble curb plate and second rectangle marble curb plate set up at rectangle marble bottom plate both ends relatively, and first rectangle marble curb plate and second rectangle marble curb plate pass through third rectangle marble curb plate and connect, and first rectangle marble curb plate and third rectangle marble curb plate hookup location department and two L shape bearing in the L shape bearing piece that set up relatively prop up the piece cooperation, and second rectangle marble curb plate and third rectangle marble curb plate hookup location department and two another L shape bearing in the L shape bearing piece that set up relatively prop up the piece cooperation.

Compared with the prior art, the utility model has the following advantage:

1. The utility model discloses an utilize horizontal adjustment frame and vertical support frame to found the regulation support, the one end of abrupt slope simulation panel is articulated with vertical support frame, it provides the fulcrum to rotate its inclination of regulation for abrupt slope simulation panel, draw-in groove cooperation on through panel vaulting pole and the horizontal adjustment frame, acquire the different inclination of abrupt slope simulation panel, carry out the reduction simulation to natural environment condition and abrupt slope cliff institute characteristic, installation multiunit L shape bearing brace on abrupt slope simulation panel, the bearing effect of part is played with the face of marble keel laminating, L shape bearing brace plays partial bearing effect, L shape bearing brace has restricted marble keel horizontal direction's removal simultaneously, make the structure more stable, marble keel is as the carrier of splendid attire soil matrix and plant, simulate abrupt slope cliff composition under the actual condition.

2. the utility model discloses a marble keel by rectangle marble bottom plate and the dustpan formula marble keel that first rectangle marble curb plate, second rectangle marble curb plate and third rectangle marble curb plate of equal perpendicular to rectangle marble bottom plate are constituteed, the preparation is the dustpan formula marble keel of no upper cover and protecgulum, dustpan formula marble keel's internal surface is provided with the marble arch, simulates the hole hollow under the true state and feels, simulates effectually.

To sum up, the utility model relates to a novel reasonable, controllable, variably carry out the research that the different inclination of abrupt slope cliff possess the characteristic and carry out reduction simulation vegetation and cultivate and growth situation, overcome the difficult nature and the limitation of studying on the spot, plant covers green directly, accurate and high-efficient under the abrupt slope cliff, makes "on the spot" study abrupt slope cliff plant cover green problem fast down become possible, convenient to popularize and use.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

drawings

Fig. 1 is a schematic view of the structure of the utility model for placing green plants.

Fig. 2 is a schematic view of the structure of the utility model without green plants.

fig. 3 is a schematic structural view of the irrigation mechanism of the water tank and the drip irrigation emitter of the present invention.

Fig. 4 is the structural schematic diagram of the marble keel of the utility model.

Description of reference numerals:

2-1-horizontal adjusting frame; 2-vertical support frame; 2-3-abrupt slope simulation panel;

2-4-through holes; 2-5-panel stay bar; 2-6-L-shaped bearing support pieces;

7-marble keel; 7-1-rectangular marble bottom plate;

7-2 — a first rectangular marble side panel; 7-3-a second rectangular marble side plate;

7-4-a third rectangular marble side panel; 8-2-drip irrigation header pipe;

8-3-first-stage branch pipe; 8-4-secondary branch pipe; 8-5-automatic rotary nozzle;

8-6-first-stage branch pipe plug; 10-soil; 11-green planting.

Detailed Description

As shown in figures 1 to 4, a quick green mechanism of plant covers under simulation abrupt slope cliff, including abrupt slope simulation panel 2-3, be used for supporting the regulation support of adjusting abrupt slope simulation panel 2-3 inclination and install on abrupt slope simulation panel 2-3 and plant the mechanism of watering that 11 provided moisture for green, adjust the support and include horizontal adjustment frame 2-1 and perpendicular to horizontal adjustment frame 2-1 and install vertical support frame 2-2 as an organic whole with horizontal adjustment frame 2-1, be provided with a plurality of draw-in grooves on horizontal adjustment frame 2-1, abrupt slope simulation panel 2-3 top is articulated with vertical support frame 2-2 top, abrupt slope simulation panel 2-3 back downside install with draw-in groove complex panel vaulting pole 2-5, abrupt slope simulation panel 2-3 upper surface from top to bottom installs in proper order the multiunit be used for injecing fossil fragments 7 positions of fossil fragments marble The bearing support comprises two L-shaped bearing support pieces 2-6 which are oppositely arranged, a plurality of through holes 2-4 are formed in panel parts, located on the upper side and the lower side of the marble keel 7, in the steep slope simulation panel 2-3, and the marble keel 7 is a dustpan-type marble keel which is composed of a rectangular marble bottom plate 7-1, a first rectangular marble side plate 7-2, a second rectangular marble side plate 7-3 and a third rectangular marble side plate 7-4, wherein the first rectangular marble side plate 7-2, the second rectangular marble side plate 7-3 and the third rectangular marble side plate 7-4 are all perpendicular to the rectangular marble bottom plate 7-1.

In this embodiment, the inner surface of the dustpan type marble keel is provided with a plurality of marble protrusions.

It should be noted that, an adjusting bracket is constructed by utilizing a horizontal adjusting frame 2-1 and a vertical supporting frame 2-2, one end of a steep slope simulation panel 2-3 is hinged with the vertical supporting frame 2-2 to provide a pivot for the rotation adjustment of the inclination angle of the steep slope simulation panel 2-3, different inclination angles of the steep slope simulation panel 2-3 are obtained through the matching of a panel supporting rod 2-5 and a clamping groove on the horizontal adjusting frame 2-1, the reduction simulation is carried out on the natural environment condition and the characteristics of the steep slope rock wall, a plurality of groups of L-shaped bearing supporting pieces 2-6 are arranged on the steep slope simulation panel, the panel surface attached with a marble keel 7 plays a part of bearing role, the L-shaped bearing supporting pieces 2-6 play a part of bearing role, and the L-shaped bearing supporting pieces 2-6 limit the horizontal movement of the marble keel 7, the structure is more stable, the marble keel 7 is used as a carrier for containing a soil 10 matrix and green plants 11, and steep slope rock wall components under actual conditions are simulated; the adopted marble keel 7 is a dustpan-type marble keel consisting of a rectangular marble bottom plate 7-1, a first rectangular marble side plate 7-2, a second rectangular marble side plate 7-3 and a third rectangular marble side plate 7-4 which are all perpendicular to the rectangular marble bottom plate 7-1, and is manufactured without an upper cover and a front cover, and marble protrusions are arranged on the inner surface of the dustpan-type marble keel to simulate pothole feeling in a real state; the irrigation mechanism is arranged to provide water for green plants, characteristics of different inclination angles of the steep slope rock wall are controllably and variably researched for reduction simulation vegetation cultivation and growth conditions, difficulty and limitation of field research are overcome, green covering of plants under the steep slope rock wall is direct, accurate and efficient, and the problem of rapid green covering of plants under the steep slope rock wall can be researched on the field.

In the embodiment, the irrigation mechanism comprises an irrigation emitter communicated with a water tank and an irrigation header pipe 8-2 connected with the output end of the irrigation emitter, the irrigation header pipe 8-2 is communicated with a plurality of primary branch pipes 8-3 in the length direction, the primary branch pipes 8-3 are communicated with a plurality of secondary branch pipes 8-4, one ends of the secondary branch pipes 8-4 far away from the primary branch pipes 8-3 are provided with automatic rotating spray heads 8-5, one ends of the primary branch pipes 8-3 far away from the irrigation header pipe 8-2 are provided with primary branch pipe plugs 8-6, the irrigation header pipe 8-2 is arranged beside a steep slope simulation panel 2-3 along the height direction of the steep slope simulation panel 2-3, the primary branch pipes 8-3 are perpendicular to the irrigation header pipe 8-2 and extend into the back of the steep slope simulation panel 2-3 in parallel to be fixedly connected with the steep slope simulation panel 2-, the secondary branch pipe 8-4 penetrates through the through hole 2-4 and extends out to the steep slope simulation panel 2-3, and the drip irrigation main pipe 8-2 is connected with the output end of the drip irrigation emitter through a hose.

it should be noted that the irrigation mechanism adopted is characterized in that the drip irrigation main pipe 8-2 is arranged at the side of the steep slope simulation panel 2-3, the primary branch pipe 8-3 of the irrigation mechanism is arranged at the bottom of the steep slope simulation panel 2-3 to avoid the shielding of the watering line on the green plant 11, the soil 10 and the green plant 11 are convenient to replace, the secondary branch pipe 8-4 penetrates through the through hole 2-4 to uniformly provide moisture for the green plant through the automatic rotating spray head 8-5, the drip irrigation main pipe 8-2 is connected with the output end of the drip irrigation device through a hose so as to facilitate the integral rotation of the drip irrigation main pipe 8-2 and the steep slope simulation panel 2-3 and avoid the damage of the secondary branch pipe 8-4 caused by the position change of the secondary branch pipe 8-4 and the through hole 2-4 when the steep slope simulation panel 2-3 rotates around the vertical support frame 2, meanwhile, the primary branch pipe 8-3 and the drip irrigation header pipe 8-2 are broken off.

In the embodiment, the number of the horizontal adjusting frames 2-1 is two, the two horizontal adjusting frames 2-1 are arranged in parallel, and the number of the vertical supporting frames 2-2 and the number of the panel supporting rods 2-5 are equal to and in one-to-one correspondence with the number of the horizontal adjusting frames 2-1.

In this embodiment, the first rectangular marble side plate 7-2 and the second rectangular marble side plate 7-3 are oppositely disposed at two ends of the rectangular marble bottom plate 7-1, the first rectangular marble side plate 7-2 and the second rectangular marble side plate 7-3 are connected by the third rectangular marble side plate 7-4, the connection position of the first rectangular marble side plate 7-2 and the third rectangular marble side plate 7-4 is matched with one L-shaped bearing branch plate 2-6 of the two oppositely disposed L-shaped bearing branch plates 2-6, and the connection position of the second rectangular marble side plate 7-3 and the third rectangular marble side plate 7-4 is matched with the other L-shaped bearing branch plate 2-6 of the two oppositely disposed L-shaped bearing branch plates 2-6.

When the utility model is used, the steep slope simulation panel 2-3 is lifted according to the slope angle of the appointed steep slope rock wall, the steep slope simulation panel 2-3 is hinged with the vertical support frame 2-2, and then the steep slope simulation panel 2-3 rotates around the top end of the vertical support frame 2-2, so that the panel support rod 2-5 at the back of the steep slope simulation panel 2-3 is matched with the corresponding clamping groove on the horizontal adjusting frame 2-1, the inclination angle of the steep slope simulation panel 2-3 is adjusted, and the inclination angle of the steep slope simulation panel 2-3 is consistent with the slope angle of the appointed steep slope rock wall; meanwhile, the drip irrigation header pipe 8-2 rotates along with the steep slope simulation panel 2-3 through the bending of the hose, and the steep slope simulation panel 2-3 drives the drip irrigation header pipe 8-2, the plurality of primary branch pipes 8-3 and the plurality of secondary branch pipes 8-4 to rotate along with the steep slope simulation panel 2-3;

According to the environment of the designated steep slope rock wall, a plurality of green plants 11 are selected to be planted in the laboratory 1, marble keels 7 with the same number as the green plants 11 are installed on the steep slope simulation panel 2-3 according to the types of the green plants 11, and each marble keel 7 is clamped between two L-shaped bearing support sheets which are arranged oppositely; soil 10 with a specified thickness is placed in each marble keel 7, and green plants 11 of different types are planted in different marble keels 7; the number of the green plants 11 is not less than five;

According to the rule of the environmental parameters of the designated steep slope rock wall, the environmental factors are applied to the mechanism used by the utility model, and the environmental parameters comprise the environmental temperature and humidity, the ventilation condition and the illumination parameters; the irrigation mechanism is used for intermittently providing moisture for the green plants 11, when the green plants 11 need to be watered, the drip irrigation device is started, water flows into the drip irrigation main pipe 8-2 through the hose, the water flowing into the drip irrigation main pipe 8-2 is shunted again through the primary branch pipes 8-3 to enter the secondary branch pipes 8-4, and then is uniformly sprinkled on the green plants 11 through the automatic rotating spray head 8-5; observing the growth conditions of various green plants 11 in the marble keel 7 on the steep slope simulation panel 2-3, sequencing the growth vigor flourishing degrees of the various green plants 11 from good to bad, and screening the first three green plants 11 as quasi-target green plants of the specified steep slope rock wall;

The method comprises the steps that multiple green plants 11 in marble keels 7 on steep slope simulation panels 2-3 are replaced by quasi-target green plants, the number of the quasi-target green plants is equal, an environmental parameter adjusting mechanism provides a growth environment for the quasi-target green plants according to an environmental parameter rule of a specified steep slope rock wall, the growth condition of the quasi-target green plants is observed again, and the target green plants are screened comprehensively according to the growth condition and the economic cost of the quasi-target green plants; the thickness of soil contained in the marble keel is adjusted, and the steep slope rock wall angle is changed, so that the green covering condition of the steep slope rock walls with different thicknesses and different angles of the soil 10 is realized; the method can controllably and variably research the characteristics of different inclination angles of the steep slope rock wall to reduce and simulate vegetation cultivation and growth conditions, overcomes the difficulty and limitation of field research, ensures that plants under the steep slope rock wall are directly, accurately and efficiently greened, and makes the field research on the problem of fast greened plants under the steep slope rock wall possible.

the above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (5)

1. The utility model provides a quick green mechanism of plant under simulation abrupt slope cliff which characterized in that: comprises a steep slope simulation panel (2-3), an adjusting bracket for supporting and adjusting the inclination angle of the steep slope simulation panel (2-3) and a water filling mechanism arranged on the steep slope simulation panel (2-3) and used for providing water for green plants (11), wherein the adjusting bracket comprises a horizontal adjusting frame (2-1) and a vertical supporting frame (2-2) which is vertical to the horizontal adjusting frame (2-1) and is integrally arranged with the horizontal adjusting frame (2-1), a plurality of clamping grooves are arranged on the horizontal adjusting frame (2-1), the top of the steep slope simulation panel (2-3) is hinged with the top of the vertical supporting frame (2-2), a panel supporting rod (2-5) matched with the clamping grooves is arranged on the lower side of the back of the steep slope simulation panel (2-3), and a plurality of groups of bearing supports for limiting the position of marble are sequentially arranged on the upper surface of the steep slope simulation panel (2-3) from top to bottom, the bearing support comprises two L-shaped bearing support pieces (2-6) which are oppositely arranged, a plurality of through holes (2-4) are formed in panel parts, located on the upper side and the lower side of the marble keel (7), in the steep slope simulation panel (2-3), the marble keel (7) is a dustpan-type marble keel which is composed of a rectangular marble bottom plate (7-1), a first rectangular marble side plate (7-2), a second rectangular marble side plate (7-3) and a third rectangular marble side plate (7-4), wherein the first rectangular marble side plate, the second rectangular marble side plate and the third rectangular marble side plate are all perpendicular to the rectangular marble bottom plate (7-1).

2. The mechanism for simulating rapid vegetation under steep rock wall as claimed in claim 1, wherein: the mechanism of watering include with the drip irrigation emitter of water tank intercommunication and with drip irrigation house steward (8-2) that the drip irrigation emitter output is connected, the intercommunication has a plurality of one-level branch pipes (8-3) on the length direction of drip irrigation house steward (8-2), the intercommunication has a plurality of secondary branch pipes (8-4) on one-level branch pipe (8-3), automatic rotatory nozzle (8-5) are installed to the one end that one-level branch pipe (8-4) kept away from one-level branch pipe (8-3), one-level branch pipe end cap (8-6) are installed to the one end that drip irrigation house steward (8-2) were kept away from in one-level branch pipe (8-3), drip irrigation house steward (8-2) are installed at abrupt slope simulation panel (2-3) side along abrupt slope simulation panel (2-3) direction of height, one-level branch pipe (8-3) perpendicular to drip irrigation house steward (8-2) and parallel The slope simulation panels (2-3) are fixedly connected, the secondary branch pipes (8-4) penetrate through the through holes (2-4) and extend out to the steep slope simulation panels (2-3), and the drip irrigation header pipe (8-2) is connected with the output end of the drip irrigation device (8-1) through a hose.

3. The mechanism for simulating rapid vegetation under steep rock wall as claimed in claim 1, wherein: the inner surface of the dustpan type marble keel is provided with a plurality of marble protrusions.

4. The mechanism for simulating rapid vegetation under steep rock wall as claimed in claim 1, wherein: the number of the horizontal adjusting frames (2-1) is two, the two horizontal adjusting frames (2-1) are arranged in parallel, and the number of the vertical supporting frames (2-2) and the number of the panel supporting rods (2-5) are equal to and correspond to the number of the horizontal adjusting frames (2-1).

5. The mechanism for simulating rapid vegetation under steep rock wall as claimed in claim 1, wherein: the first rectangular marble side plate (7-2) and the second rectangular marble side plate (7-3) are oppositely arranged at two ends of the rectangular marble bottom plate (7-1), the first rectangular marble side plate (7-2) and the second rectangular marble side plate (7-3) are connected through a third rectangular marble side plate (7-4), the connecting position of the first rectangular marble side plate (7-2) and the third rectangular marble side plate (7-4) is matched with one L-shaped bearing branch plate (2-6) of the two L-shaped bearing branch plates (2-6) which are oppositely arranged, the connecting position of the second rectangular marble side plate (7-3) and the third rectangular marble side plate (7-4) is matched with the other L-shaped bearing branch plate (2-6) of the two L-shaped bearing branch plates (2-6) which are arranged oppositely.