CN2905236Y - A garden landscape rainwater collection and water circulation system - Google Patents

Abstract

A garden landscape rainwater collection and recycling water system, which is characterized in that it includes a rainwater collection tank for collecting and purifying rainwater, a sunken water storage tank for storing rainwater, and a water supply mechanism for providing flowing water in the garden landscape. The high-level water supply pool and a number of water-use mechanisms installed in the garden landscape, wherein the rainwater collection pool, water storage tank, high-level water supply pool and various water-use mechanisms are connected to each other in sequence through pipelines to form a rainwater collection and water circulation system. This system can not only effectively solve the problem that the water in the garden landscape will deteriorate due to stagnant flow and affect the environment of the garden landscape, but also provide the running water needed for the operation of the garden landscape facilities, and more importantly, greatly improve the environment. It reduces the daily maintenance cost of garden landscape facilities, saves a lot of water resources, and protects the ecological environment.

Description

A garden landscape rainwater collection and water circulation system

technical field

The utility model relates to a water system, in particular to a garden landscape rainwater collection and circulation water system.

Background technique

It is often said that a garden will not live without water, and it will rot without water flowing. At present, the man-made streams, ponds, shallow ponds, fountains and other landscape facilities in residential quarters or parks in domestic cities are generally independent of each other, and there is no circulation and coherence, so that the water stored in them cannot circulate and flow, and the time is slightly longer. The water quality has deteriorated, a large number of bacteria have grown, and it has become rotten and smelly. Moreover, tap water is basically used as a water source. In order to save property management costs, some property management companies have reduced the number of water changes for water features, making the garden water features stagnant water, causing mosquitoes to breed and breed, and the garden water features are in a dry and semi-dry state, making the water features unable to perform their aesthetic functions. In order to provide people with a comfortable and fresh landscape environment for a long time, some property management companies regularly use equipment and ask workers to replace the water in the landscape facilities with tap water, which not only increases the daily maintenance cost of the landscape, but also causes a lot of waste of water resources. , is not conducive to environmental protection and building a conservation-minded society. Moreover, there are contradictions between water supply and people's needs, between property management costs and people's affordability.

Contents of the invention

The purpose of the utility model is to solve the above existing problems and provide a garden landscape rainwater collection and recycling water system that can effectively reduce the daily maintenance cost of the garden landscape, save water resources and maintain the normal operation of the garden landscape.

The technical scheme of the utility model is achieved in that:

A garden landscape rainwater collection and water circulation system, which is characterized in that it includes a rainwater collection tank for collecting and purifying rainwater, a sunken water storage tank for storing rainwater, and a water supply mechanism for providing flowing water in the garden landscape. The high-level water supply pool and a number of water-use mechanisms installed in the garden landscape, wherein the rainwater collection pool, water storage tank, high-level water supply pool and various water-use mechanisms are connected to each other in sequence through pipelines to form a rainwater collection and water circulation system.

In order to enable the utility model to provide clean and circulating water sources for the garden landscape for a long time, a grit well and a filter well are arranged between the rainwater collection tank and the storage tank, and the grit well and the filter well are connected to each other through pipelines, and the grit The input end of the well is connected to the output end of the rainwater collection tank through a pipeline, and the output end of the filter well is connected to the input end of the water storage tank through a pipeline; a grit chamber and a filter well are arranged between the water storage tank and the water mechanism , the grit chamber and the filter well are connected together through pipelines, and the input end of the grit well is connected with the output end of the water mechanism through the pipeline, and the output end of the filter well is connected with the input end of the water storage tank through the pipeline .

Because the utility model adopts a circulation system integrating water collection, water storage, water supply and water use consisting of a rainwater collection tank, a water storage tank, a high-level water supply tank and a water use mechanism, the utility model stores rainwater through the rainwater collection tank and the water storage tank. Get up, then connect water with each water use mechanism in the garden landscape through the high-level water supply pool or water storage tank, and finally send it back to the water storage tank from the tail end of the water use mechanism. It not only effectively solves the problem that the water in the garden landscape becomes bad due to stagnation and affects the environment of the garden landscape, but also provides the required running water for the operation of the garden landscape facilities, and more importantly, greatly reduces the water consumption of the garden landscape. The daily maintenance cost of the facility saves a lot of water resources and protects the ecological environment.

Below in conjunction with accompanying drawing, the utility model is further described:

Description of drawings

Fig. 1 is the structural representation of the utility model.

Detailed ways

As shown in Figure 1, a garden landscape rainwater collection and water circulation system described in the utility model includes a rainwater collection tank 1 for collecting and purifying rainwater, a sunken water storage tank 2 for storing rainwater, A high-level water supply pool 3 for providing flowing water flow for the water-use mechanisms in the garden landscape and several water-use mechanisms 4 arranged in the garden landscape, wherein the rainwater collection pool 1, the water storage tank 2, the high-level water supply pool 3 and each water-use mechanism 4 are sequentially connected to each other through pipelines 5 to form a rainwater collection and water recycling system. Like this, make the utility model store rainwater by rainwater collection tank, water storage tank, then connect water with each water use mechanism in the garden landscape through high-level water supply tank or water storage tank, finally send back water storage tank from the water use mechanism tail end. It not only effectively solves the problem that the water in the garden landscape becomes bad due to stagnation and affects the environment of the garden landscape, but also provides the required running water for the operation of the garden landscape facilities, and more importantly, greatly reduces the water consumption of the garden landscape. The daily maintenance cost of the facilities saves a lot of water resources, maintains the normal operation of the garden landscape, and protects the ecological environment. In order to make the rainwater collection pond 1 provide a clean circulating water source for the garden landscape, as shown in Figure 1, a grit chamber 6 and a filter well 7 are arranged between the rainwater collection pond 1 and the storage pond 2, and the grit chamber 6 The filter well 7 is connected to each other through the pipeline 5, and the input end of the grit chamber 6 is connected to the output end of the rainwater collection tank 1 through the pipeline 5, and the output end of the filter well 7 is connected to the input of the water storage tank 2 through the pipeline 5. end connected. In order to transport the water source in the water storage tank 2 to the high-level water supply tank 3 arranged at a high place, so that the water flows out from the high-level water supply tank 3, and provide convenience for some facilities in the garden landscape that need to obtain the natural flow of water, the water storage tank 2 and the high-level water supply pool 3 are provided with a water pump 8, the input end of the water pump 8 is connected to the output end of the water storage tank 2 through the pipeline 5, and its output end is connected to the input end of the high-level water supply pool 3 through the pipeline 5. In order to make the water source after one round of circulation clean before entering the next cycle, thereby maintaining the cleanliness of the water source of the entire landscape, as shown in Figure 1, there is a grit settling between the water storage tank 2 and the water mechanism 4 Well 9 and filter well 10, described grit chamber 9 and filter well 10 are interconnected together by pipeline 5, and the input end of grit chamber 9 is connected with the output end of water mechanism 4 by pipeline 5, and described filter well 10 The output end of is connected with the input end of storage tank 2 through pipeline 5. In order to enable the utility model to easily control the amount of water returned from the tail end of the water use mechanism 4, a water level controller 11 is also provided between the input end of the grit chamber 9 and the output end of the water use mechanism 4, the water level controller 11 It is installed on the pipeline 5 between the grit chamber 9 and the water mechanism 4 . In order to make the incoherence between some water use landscape facilities in the garden, the water circulation in it can also be achieved, and the water in a certain view facility can not be circulated to avoid deterioration. The coherent parts can be connected together through the pipeline 5 to form the water circulation of the whole landscape facility. Each water mechanism 4 described in the present utility model can be as shown in Figure 1, is arranged in the garden artificial stream 13, artificial pond 14, fountain 15, garden sprinkler irrigation system 16, garden drip irrigation system 17, artificial waterfall 18, artificial Waterway 19 and more. In order to make the water in the storage tank 2 not only supply water for the landscape water facilities, but also make further rational use of the collected rainwater, the water mechanism 4 is connected to the storage tank 2 through a pipeline 5, and the pipeline 5 between them is connected to the storage tank 2. A booster water pump 12 is provided. As shown in Figure 1 again, when the water-water mechanism 4 is a garden sprinkler irrigation system 16, the water in the water storage tank 2 can be directly used to irrigate the flowers and trees in the garden by the booster water pump 12, thereby achieving further reasonable and effective irrigation. Use the collected rainwater. And the rainwater collection tank 1 described in the utility model can be connected with the urban rainwater drainage system through a plurality of rainwater pipes 19, and collect rainwater from the urban rainwater drainage system; The overflow pipe 20 arranged on it is discharged back into the urban rainwater drainage system.

Claims (7)

1. A garden landscape rainwater collection and water circulation system, characterized in that it includes a rainwater collection pool (1) for collecting and purifying rainwater, a sunken water storage pool (2) for storing rainwater, and a rainwater storage pool (2) for gardening The water use mechanism in the landscape provides a high-level water supply pool (3) for flowing water and several water-use mechanisms (4) arranged in the garden landscape, wherein the rainwater collection pool (1), the water storage tank (2), the high-level water supply pool (3 ) and each water use mechanism (4) are connected to each other in sequence through pipelines (5) to form a rainwater collection and water recycling system. 2. According to claim 1, the garden landscape rainwater collection and water circulation system is characterized in that a grit well (6) and a filter well (7) are arranged between the rainwater collection pool (1) and the storage pool (2), The grit well (6) and the filter well (7) are connected to each other through a pipeline (5), and the input end of the grit well (6) is connected to the output end of the rainwater collection tank (1) through a pipeline (5) , the output end of the filter well (7) is connected with the input end of the water storage tank (2) through a pipeline (5). 3. According to claim 1, the landscaping rainwater collection and circulating water system is characterized in that a water pump (8) is provided between the above-mentioned water storage pool (2) and the high-level water supply pool (3), and the input end of the water pump (8) The output end of the water storage tank (2) is connected through the pipeline (5), and the output end thereof is connected with the input end of the high-level water supply tank (3) through the pipeline (5). 4. According to claim 1, the garden landscape rainwater collection and water circulation system is characterized in that a grit well (9) and a filter well (10) are arranged between the above-mentioned water storage tank (2) and the water use mechanism (4). The grit chamber (9) and the filter well (10) are connected to each other through the pipeline (5), and the input end of the grit chamber (9) is connected with the output end of the water mechanism (4) through the pipeline (5), so The output end of the filter well (10) is connected with the input end of the water storage tank (2) through a pipeline (5). 5. According to claim 4, the garden landscape rainwater collection and water circulation system is characterized in that a water level controller (11) is provided between the input end of the grit chamber (9) and the output end of the water use mechanism (4), The water level controller (11) is installed on the pipeline (5) between the grit chamber (9) and the water use mechanism (4). 6. The garden landscape rainwater collection and water circulation system according to claim 1, characterized in that the above-mentioned water use mechanisms (4) are connected together through pipes (5). 7. The landscape rainwater collection and water circulation system according to claim 1, characterized in that the above-mentioned water use mechanism (4) is connected to the water storage pool (2) through a pipeline (5), and the pipeline (5) between them A booster water pump (12) is provided.