CN222442585U - Water-saving mine ecological restoration project maintenance system - Google Patents

Abstract

The application relates to a water-saving mine ecological restoration engineering maintenance system. The ecological restoration device comprises a water retaining wall, an ecological filter tank, a clean water tank, a water distribution mechanism and a water pump, wherein the water retaining wall is arranged in an ecological restoration area of a mine and used for collecting rainwater on the upstream side of the water retaining wall, the ecological filter tank is arranged on the downstream side of the water retaining wall and communicated with the upstream side of the water retaining wall through a water conveying channel, the clean water tank is arranged beside the ecological filter tank and used for storing water filtered by the ecological filter tank, the water distribution mechanism is provided with a plurality of water distribution pipes uniformly distributed in the ecological restoration area, the water distribution pipes adopt a spraying mode, the effect of the water distribution pipes is not limited to irrigation, and can spray foliar fertilizers and can spray pesticides when mine vegetation demands, the water distribution pipes are made of ethylene propylene diene monomer rubber (EPDM), PVC and other materials with acid resistance, alkali resistance, ageing resistance and the like, and the water pump is arranged in the clean water tank and used for supplying water to the water distribution pipes uniformly distributed in the ecological restoration area. The water delivery channel is provided with a step overflow dam. The power supply of the water pump comprises a solar panel.

Description

Water-saving mine ecological restoration engineering maintenance system

Technical Field

The utility model relates to a water-saving mine ecological restoration project and a maintenance system thereof. The method is suitable for the technical fields of mine ecological restoration engineering and water-saving irrigation.

Background

Mine ecological restoration engineering is an important field of current environmental protection and ecological restoration. In the traditional mine ecological restoration engineering, various problems exist in water resource management and utilization, such as water resource waste, low irrigation efficiency and the like. Meanwhile, the existing irrigation technology mostly depends on traditional energy sources, which is unfavorable for environmental protection and sustainable development. Therefore, how to realize water-saving ecological restoration and maintenance and improve the water resource utilization rate becomes a problem to be solved urgently.

Disclosure of utility model

Aiming at the problems, the utility model provides a water-saving mine ecological restoration project and a maintenance system thereof.

The technical scheme adopted by the utility model is that the water-saving mine ecological restoration project and the maintenance system thereof are characterized by comprising the following steps:

The water retaining wall is arranged in an ecological restoration area of the mine and is used for collecting rainwater on the upstream of the water retaining wall;

the ecological filter tank is arranged on the downstream side of the water retaining wall and is communicated with the upstream of the water retaining wall through a water conveying channel;

The clean water tank is arranged beside the ecological filter tank and is used for storing the water body filtered by the ecological filter tank;

The water distribution mechanism is provided with a plurality of water distribution pipes which are uniformly distributed in the ecological restoration area, the water distribution pipes adopt a spraying mode, the effect of the water distribution pipes is not limited by irrigation, and simultaneously, leaf fertilizer can be sprayed, pesticide can be sprayed when mine vegetation is required, and the water distribution pipes are selected from ethylene propylene diene monomer rubber (EPDM), PVC and other hoses with the characteristics of acid resistance, alkali resistance, aging resistance and the like;

The water pump is arranged in the clean water tank and used for supplying water for the water distribution pipes uniformly distributed in the ecological restoration area.

The water delivery channel is provided with a step overflow dam.

The power supply of the water pump comprises a solar panel.

Further comprises:

and the alarm system is used for giving an alarm when the water level of the clean water tank is too low or the water pump fails.

Mine plants are planted in the ecological restoration area, the width of each slope or each layer of each mine plant is between 60cm and 80cm, each spraying can cover a single slope or a single layer, the height of each layer is not suitable to be larger than 70cm, and the height of each layer is ensured to be covered by climbing vine plants.

The mine plants comprise herbaceous plants, shrubs and climbing plants, wherein the herbaceous plants comprise one or more of broadleaf grass, white clover and festuca arundinacea, the shrubs comprise amorpha fruticosa and/or magnolia multiflora, and the climbing plants comprise white arrowroot.

The solar energy water-saving ecological filter has the beneficial effects that rainwater is collected through the water retaining wall, flows to the ecological filter through the water conveying channel, enters the clean water tank after being filtered through the filtering action of the ecological filter, and is provided with the water pumps at two sides by the solar cell panel, and the solar energy water-saving ecological filter utilizes the solar cell panel to provide energy for the water pumps. And arranging water distribution pipes on the ecological restoration side slope at intervals of not more than 70cm in height for drip irrigation of plants.

According to the utility model, through the integrated design of the water retaining wall and the step overflow dam, rainwater can be effectively collected and utilized, and the waste of water resources is avoided. Meanwhile, the filtering effect of the ecological filter tank can effectively reduce the sediment content in the water body and improve the water quality. In addition, the solar panel is utilized to provide energy for the water pump, so that the consumption of the traditional energy and the environmental pollution are avoided. The water distribution pipes are arranged on the ecological restoration slope at intervals of not more than 70cm in height for drip irrigation, so that the irrigation efficiency and uniformity are improved, and the ecological restoration slope is beneficial to plant growth and ecological restoration engineering implementation.

Drawings

Fig. 1 is a side view of a system configuration of an embodiment.

Fig. 2 is a top view of the system structure of the embodiment.

1. The ecological restoration area comprises a water distribution pipe, a water retaining wall, an ecological filter tank, a water pump, a clean water tank, a solar cell panel and a step overflow dam.

Detailed Description

The embodiment is a water-saving mine ecological restoration project and a maintenance system thereof, wherein a water retaining wall is arranged in an ecological restoration area of a mine so as to form a rainwater collecting tank at the water retaining wall, the rainwater collecting tank is communicated with an ecological filter tank positioned at the downstream of the water retaining wall through a water delivery channel, the ecological filter tank is communicated with a clean water tank positioned beside the ecological filter tank, a water pump is arranged in the clean water tank, and the water pump is communicated with a water distribution mechanism arranged in the ecological restoration area through a water delivery pipe.

The water distribution mechanism in the embodiment is provided with a plurality of water distribution pipes uniformly distributed in the ecological restoration area, and the water distribution pipes are arranged on the side slope in the ecological restoration area at intervals of a certain height for drip irrigation, so that the irrigation efficiency and uniformity are improved, and the growth of plants and the implementation of ecological restoration engineering are facilitated.

In the embodiment, mine plants are planted in the ecological restoration area, the width of each slope or each layer of the mine plants is between 60cm and 80cm, so that each spraying can cover a single slope or a single layer, the height of each layer is not suitable to be larger than 70cm, and the height of each layer is ensured to be covered by climbing vine plants.

In the embodiment, herb plants which are mainly selected from broadleaf grass, white clover and festuca arundinacea, shrub plants of amorpha fruticosa and magnolia multiflora, climbing plants which are mainly selected from white arrowroot and plant combinations of different wild flowers are selected, drought resistance and high temperature resistance of the plants are required, and the plant height is not more than the spraying height.

In the embodiment, the distributed high-efficiency solar cell panel is utilized to provide energy for the water pump, so that the consumption of the traditional energy and the environmental pollution are avoided.

The embodiment is also provided with an alarm system for giving an alarm when the water level of the clean water tank is too low or the water pump fails, so that the safety and reliability of the device are improved.

In the embodiment, the water retaining wall and the overflow dam are made of waterproof and corrosion-resistant materials, so that the durability and stability of the device are enhanced. The ecological filter tank is internally provided with a filter medium so as to further reduce impurities and suspended matters in the water body. The clean water tank adopts an anti-seepage design to ensure that the water body does not leak. The water pump is an efficient low-energy water pump, so that the energy utilization efficiency is improved and the energy consumption is reduced. The water distribution pipe is made of pressure-resistant and wear-resistant materials, and is irrigated in a spraying mode, so that long-term stable use is ensured.

The embodiment realizes water-saving ecological restoration and maintenance, and improves the water resource utilization rate and the irrigation efficiency. Meanwhile, solar energy is utilized to provide energy for the water pump, so that the consumption of traditional energy and environmental pollution are avoided. The optimal design and integration of the device enable all the partial components to work cooperatively, and the overall efficiency and stability are improved. By implementing the device, the mine ecological restoration project achieves remarkable results and promotes sustainable development of mine areas.

The above is only a preferred embodiment of the present application, and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (6)

1. The utility model provides a water conservation formula mine ecological remediation engineering maintenance system which characterized in that includes:

The water retaining wall is arranged in an ecological restoration area of the mine and is used for collecting rainwater on the upstream of the water retaining wall;

the ecological filter tank is arranged on the downstream side of the water retaining wall and is communicated with the upstream of the water retaining wall through a water conveying channel;

The clean water tank is arranged beside the ecological filter tank and is used for storing the water body filtered by the ecological filter tank;

The water distribution mechanism is provided with a plurality of water distribution pipes which are uniformly distributed in the ecological restoration area;

The water pump is arranged in the clean water tank and used for supplying water for the water distribution pipes uniformly distributed in the ecological restoration area.

2. The maintenance system of water-saving mine ecological restoration project according to claim 1, wherein the water delivery channel is provided with a step-type overflow dam.

3. The maintenance system of the water-saving mine ecological restoration project according to claim 1, wherein the power supply of the water pump comprises a solar panel.

4. The water-saving mine ecological restoration engineering maintenance system according to claim 1, further comprising an alarm system for giving an alarm when the clean water tank water level is too low or the water pump fails.

5. The water-saving mine ecological restoration engineering maintenance system according to claim 1, wherein mine plants are planted in the ecological restoration area, each slope or each layer of the mine plants is 60cm to 80cm in width, each spraying can cover a single slope or a single layer, the height of each layer is not more than 70cm, and the climbing plants can cover the height of each layer.

6. The water-saving mine ecological restoration engineering maintenance system according to claim 5, wherein the mine plants comprise herbaceous plants, shrubs and climbing plants, the herbaceous plants comprise one or more of broadleaf grass, white clover and fescue, the shrubs comprise amorpha fruticosa and/or magnolia multiflora, and the climbing plants comprise arrowroot.