CN218277945U - Automatic irrigation and maintenance device for ecological restoration of high and steep side slope vegetation hole - Google Patents

Abstract

The utility model provides a steep side slope is planted and is given birth to automatic maintenance device for hole ecological restoration relates to the ecological environment restoration and the maintenance technical field of steep side slope, including steep side slope region, the regional one side of steep side slope is provided with the slope region of cutting, and the regional surface of steep side slope is provided with the cistern, the regional surface one side of steep side slope is provided with solar power system, and the regional opposite side of steep side slope is provided with wind power system, sets up the cistern at the regional top of steep side slope, lays burette irrigation maintenance system on the slope region of cutting, realizes automatic irrigation and maintenance, solves the maintenance problem after the ecological restoration, and burette irrigation maintenance system adopts solar energy and wind power supply, and the energy saving reduces the carbon emission, also can the using water wisely, reduces the maintenance cost, gains better economic benefits.

Description

An automatic irrigation and maintenance device for ecological restoration of planting holes on high and steep slopes

technical field

The utility model relates to the technical field of ecological environment restoration and maintenance of high and steep slopes, in particular to an automatic irrigation and maintenance device for ecological restoration of planting holes on high and steep slopes.

Background technique

At present, for the restoration of the slope environment, step excavation is mainly used to reduce the height and slope of the step slope, and then greening is carried out by spraying mixed vegetation and planting troughs. However, stepped excavation will take up more woodland area; spray mixed vegetation is only good for slopes less than 60 degrees; other greening technologies such as "V-shaped grooves" have high maintenance costs and poor actual greening effects .

Therefore, the existing slope regreening technology is difficult to achieve the effect of ecological restoration on high and steep slopes with a slope greater than 60 degrees. The existing irrigation and maintenance device can not achieve automatic irrigation and maintenance and water saving as long as it uses water pipe spraying. Energy saving, so the maintenance effect is poor.

Utility model content

The purpose of this utility model is to solve the existing slope regreening technology in the prior art. It is difficult to achieve the ecological restoration effect for high and steep slopes with a slope greater than 60 degrees. The existing irrigation and maintenance devices mainly use water pipe spraying, In order to solve the problem that automatic irrigation maintenance and water saving and energy saving cannot be achieved, and thus the maintenance effect is poor, an automatic irrigation maintenance device for ecological restoration of planting holes on high and steep slopes is proposed.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an automatic irrigation and maintenance device for ecological restoration of planting holes on high and steep slopes, including a high and steep slope area, and one side of the high and steep slope area is provided with a cutting The slope area, and the surface of the high and steep slope area is provided with a reservoir, one side of the surface of the high and steep slope area is provided with a solar power generation device, and the other side of the high and steep slope area is provided with a wind power generator device, the surface of the cut slope area is provided with a number of uniformly distributed vegetation holes, and the surface of the cut slope area is provided with a dropper irrigation and maintenance system, and the interior of the vegetation hole is provided with a green vegetation area.

Preferably, several outlet holes of the dropper irrigation and maintenance system correspond to the positions of each vegetation hole.

Preferably, the water inlet end of the dropper irrigation and maintenance system communicates with the inner bottom of the water storage tank.

Preferably, the solar power generation device and the wind power generation device are respectively electrically connected to the drip irrigation maintenance system.

Compared with the prior art, the utility model has the advantages and positive effects that:

1. In the utility model, the excavation of the vegetation hole is less affected by the topography, and it can be laid smoothly on slopes greater than 60 degrees. After the filling is planted, the greening of high and steep slopes can be realized, and the ecological environment of the slope can be improved. , to achieve good ecological benefits, and when excavating the slope cutting area, there is no need to carry out large-scale excavation on the high and steep slope area, which reduces the damage to the original vegetation, reduces excavation costs and land acquisition, etc. Policy Processing Fees.

2. In the utility model, a reservoir is set on the top of the high and steep slope area, and a dropper irrigation and maintenance system is arranged on the cut slope area to realize automatic irrigation and maintenance, and solve the maintenance problem after ecological restoration. The irrigation and maintenance system uses solar energy and wind energy for power supply, which saves energy, reduces carbon emissions, saves water, reduces maintenance costs, and achieves better economic benefits.

Description of drawings

Fig. 1 is the schematic diagram that the utility model proposes a kind of automatic irrigation and maintenance device for the ecological restoration of the planting hole of high and steep slope;

Fig. 2 is a schematic diagram of a planting hole of an automatic irrigation and maintenance device for ecological restoration of a high and steep slope planting hole proposed by the utility model.

Legend: 1. High and steep slope area; 2. Wind power generation device; 3. Solar power generation device; 4. Reservoir; 5. Slope cutting area; 6. Dropper irrigation and maintenance system; 7. Planting hole; 8. Green vegetation area.

detailed description

In order to understand more clearly the above purpose, features and advantages of the utility model, the utility model will be further described below in conjunction with the accompanying drawings and embodiments. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments can be combined with each other.

In the following description, a lot of specific details have been set forth in order to fully understand the utility model, but the utility model can also be implemented in other ways that are different from those described here. Therefore, the utility model is not limited to the specific details of the following disclosure EXAMPLE LIMITATIONS.

Embodiment 1, as shown in Figure 1-2, an automatic irrigation and maintenance device for ecological restoration of planting holes on high and steep slopes, including a high and steep slope area 1, one side of the high and steep slope area 1 is provided with a slope cutting edge Slope area 5, and the surface of the high and steep slope area 1 is provided with a reservoir 4, one side of the surface of the high and steep slope area 1 is provided with a solar power generation device 3, and the other side of the high and steep slope area 1 is provided with In the wind power generation device 2, a number of evenly distributed vegetation holes 7 are provided on the surface of the cut slope area 5, and the surface of the cut slope area 5 is provided with a dropper irrigation and maintenance system 6, and the interior of the vegetation hole 7 is provided with a green vegetation area 8.

The effect achieved by its entire embodiment 1 is that the high and steep slope area 1 is a steep slope to be repaired, and the angle of the general steep slope is greater than 60 degrees, the existing water pump is installed on the reservoir 4, and the water inlet end of the water pump Extending to the reservoir 4, the water outlet is fixedly connected to the water inlet of the dropper irrigation and maintenance system 6, and uses solar and wind power to generate power to realize automatic water pumping and automatic irrigation. The solar power generation device 3 provided is an existing Photovoltaic panels for solar power generation, and the wind power generation device 2 provided is an existing wind power generator, which can save energy and reduce carbon emissions while ensuring power supply. The green vegetation area 8 provided is an existing rattan or grass plant, and The planting is realized through the vegetation hole 7, and the set dripper irrigation and maintenance system 6 is an existing mature technology.

Embodiment 2, as shown in Figure 1-2, several water outlet holes of dripper irrigation and maintenance system 6 correspond to the positions of each vegetation hole 7, and the water inlet end of dripper irrigation and maintenance system 6 is connected to the interior of reservoir 4. The bottom is connected, and the solar power generation device 3 and the wind power generation device 2 are electrically connected to the dripper irrigation and maintenance system 6 respectively.

The effect achieved by the entire embodiment 2 is that the installed dropper irrigation and maintenance system 6 facilitates water supply to the plants in each planting hole 7, while ensuring smooth water supply, the waste of water sources is placed to the greatest extent, and the dripper irrigation The maintenance system 6 is connected to the water outlet of the erected water pump, so that the water source in the reservoir 4 is sent into the dripper irrigation maintenance system 6, and is smoothly transported to each planting hole 7 through the dripper irrigation maintenance system 6, The installed solar power generation device 3 and the wind power generation device 2 are convenient for supplying power to the dripper irrigation maintenance system 6 and the erected water pump.

Working principle, the excavation of the vegetation hole 7 is less affected by the terrain, and it can be smoothly laid out on slopes greater than 60 degrees. After the filling is planted, it can realize the regreening of high and steep slopes, improve the ecological environment of the slope, and achieve good results. Ecological benefits, and when excavating the slope cutting area 5, there is no need to excavate the high and steep slope area 1 on a large scale, which reduces the damage to the original vegetation, and reduces excavation costs and land acquisition policies To deal with costs, a reservoir 4 is set on the top of the high and steep slope area 1, and a dropper irrigation and maintenance system 6 is arranged on the cut slope area 5 to realize automatic irrigation and maintenance, and solve the maintenance problem after ecological restoration. The irrigation and maintenance system 6 uses solar energy and wind energy for power supply, which saves energy, reduces carbon emissions, saves water, reduces maintenance costs, and achieves better economic benefits.

The above is only a preferred embodiment of the utility model, and is not intended to limit the utility model in other forms. Any skilled person who is familiar with this profession may use the technical content disclosed above to change or remodel it into an equivalent change. The equivalent embodiments are applied to other fields, but any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention without departing from the content of the technical solution of the present utility model still belong to the technical solution of the present utility model scope of protection.

Claims (4)

1. The utility model provides a hole ecological remediation is with automatic maintenance device that irrigates is planted to steep side slope, includes steep side slope region (1), its characterized in that: one side of the high and steep side slope region (1) is provided with the slope cutting side slope region (5), and the surface of the high and steep side slope region (1) is provided with a reservoir (4), surface one side of the high and steep side slope region (1) is provided with solar power generation device (3), and the opposite side of the high and steep side slope region (1) is provided with wind power generation device (2), a plurality of evenly distributed plant-growing holes (7) are seted up on the surface of the slope cutting side slope region (5), and the surface of the slope cutting side slope region (5) is provided with a burette irrigation maintenance system (6), the inside of the plant-growing holes (7) is provided with a greening vegetation region (8).

2. The automatic irrigation and maintenance device for ecological restoration of the vegetation holes on the steep side slope as claimed in claim 1, wherein the device comprises: a plurality of water outlet holes of the dropper irrigation and maintenance system (6) correspond to the positions of the plant growing holes (7).

3. The automatic irrigation and maintenance device for ecological restoration of the vegetation holes on the steep slope as claimed in claim 1, wherein: and the water inlet end of the dropper irrigation and maintenance system (6) is communicated with the inner bottom of the reservoir (4).

4. The automatic irrigation and maintenance device for ecological restoration of the vegetation holes on the steep slope as claimed in claim 1, wherein: the solar power generation device (3) and the wind power generation device (2) are respectively electrically connected with the burette irrigation and maintenance system (6).

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