CN205623603U - Intelligence water conservation afforestation irrigation system - Google Patents

Abstract

The utility model discloses an intelligent water-saving landscaping irrigation system, aiming at solving the problem of waste of water resources. The key points of the technical scheme are: an intelligent water-saving landscaping irrigation system, which includes a main pipe, and a tee head is provided at the front end of the main pipe , one end of the three-way head is connected to a connecting pipe, the connecting pipe is connected to a water storage bucket, a water level sensor is installed on the inner wall of the water storage bucket, the water storage bucket is connected to a sump, the sump is provided with a number of leak holes, and there are plugs on the leak holes, three The other end of the tap is connected to a water source faucet, the connecting pipe and the water source faucet are equipped with an electric valve, the electric valve is connected to a controller, the rear end of the main pipe is connected to a number of seepage pipes, and the body of the seepage pipe is provided with a number of water passages. hole, the seepage pipe is provided with a humidity sensor, and the humidity sensor and the water level sensor are connected to the controller. The intelligent water-saving landscaping irrigation system of the utility model effectively saves water resources.

Description

Intelligent water-saving landscaping irrigation system

technical field

The utility model relates to the field of landscaping irrigation, more specifically, it relates to an intelligent water-saving landscaping irrigation system.

Background technique

At present, urban greening is an important part of urban construction. In many urban constructions, a large number of green lands have been planned, and various plants and trees are planted. But at present, for the irrigation of urban greening plants, most of the water spraying vehicles or artificial surface spraying methods of watering a large amount of water can only moisten the soil surface, and most of the water will flow away or be evaporated, wasting water resources.

In view of the above problems, the high-efficiency water-saving landscaping ground irrigation system disclosed by the Chinese patent with the publication number CN204335469U has the technical points as follows: the high-efficiency water-saving landscaping ground irrigation system: has a main pipeline, and the front end of the main pipeline is provided with a three-way head, three One end of the through head is connected to the water storage barrel through a connecting pipe, and the other end is directly connected to the water source faucet. Both the connecting pipe and the water source faucet are equipped with manual switch valves; The pipe body has a number of small through holes distributed on the inner pipe body, and the small through holes are distributed in several circles along the axial direction, and the inner pipe body is wrapped with an outer buffer layer; in this scheme, the main pipe is matched with several seepage pipes, and two kinds of seepage pipes are set at the same time. For the structure of the water source, the entire pipe body is directly buried in the green belt, where the plant roots can touch. When in use, water can be supplied through the water source faucet or the water storage bucket. Penetrating into the soil ensures that all the water can enter the soil, and can be watered regularly and quantitatively, saving water resources.

This solution solves the problem of waste of water resources by providing water seepage pipes to supply water to plants. Meanwhile, the utility model provides a new technical solution to solve the above problems.

Utility model content

Aiming at the deficiencies of the existing technology, the purpose of this utility model is to provide an intelligent water-saving landscaping irrigation system, which collects rainwater through the sump and stores it in the storage bucket, cooperates with the seepage pipe to infiltrate the water into the soil, and saves water resources ; There is a water leakage hole on the water collection tank, which can remove pests for plants in conjunction with the dosing tank.

The above-mentioned technical purpose of the utility model is achieved through the following technical solutions: an intelligent water-saving landscaping irrigation system, including a main pipe, the front end of the main pipe is provided with a three-way head, and one end of the three-way head is connected to a pipe The connecting pipe is connected with a water storage bucket, and a water level sensor is installed on the inner wall of the water storage bucket. Blockage, the other end of the tee head is connected to a water source faucet, the connecting pipe and the water source faucet are equipped with an electric valve, the electric valve is connected to a controller, and the rear end of the main pipe is connected to a number of seepage pipes. The pipe body of the seepage pipe is provided with several water holes, the seepage pipe is provided with a humidity sensor, and the humidity sensor and the water level sensor are both connected to the controller.

By adopting the above-mentioned technical scheme, the main pipeline, the water source faucet, and the connecting pipe are connected through the three-way head, which increases the source of the main pipeline water source. The connecting pipe is connected with a water storage bucket, and the water storage bucket is connected with the sump, which can collect rainwater Into the water storage tank to save water resources, there is also a water leakage hole on the water collection tank, after adding insecticide into the water collection tank, the water containing the insecticide will flow to the plants through the water leakage hole, so as to achieve the effect of convenient insect removal ; The pipeline at the rear end of the main pipeline is connected with a number of seepage pipes, and a water hole is provided on the body of the seepage pipe, and the water supply through the seepage pipe can effectively reduce the waste of water resources; There are electric valves on the faucet and water source, and a humidity sensor on the seepage pipe. The water level sensor, electric valve and humidity sensor are all connected to the controller. The humidity sensor can detect the humidity in the soil and send the signal to the controller. The water level sensor can detect whether there is water in the water storage bucket, and also transmit the signal to the controller. If there is water in the water storage bucket, the controller will open the electric valve on the connecting pipe, and water the plants through the water in the storage bucket. If the water storage bucket If there is no water in the soil, the controller opens the electric valve on the water source faucet, and waters the plants through the water from the water source faucet. When the humidity sensor detects that the humidity in the soil is high, it sends a signal to the controller, and the controller closes all the electric valves. Stop water supply and realize automatic control, which effectively improves the utilization efficiency of water resources and reduces maintenance costs.

The utility model is further configured as: the bottom plate and the side plate of the water collection tank are mutually socketed to form a telescopic shape.

By adopting the above technical solution, the bottom plate and the side plate of the sump are nested together, which can increase the water collection capacity of the sump, cover more plants, and increase the area for insect removal.

The utility model is further configured as follows: a dosing tank is fixedly connected to the side of the water collecting tank.

By adopting the above-mentioned technical scheme, in order to add the insecticide conveniently, the dosing tank is fixed on the side of the sump.

The utility model is further configured as follows: a filter net is provided at the junction of the water collection tank and the water storage bucket.

By adopting the above technical scheme, the sump collects rainwater, which may contain certain sundries, and a filter is set between the sump and the water storage tank to filter out sundries through the filter to prevent sundries from entering the pipeline and blocking the pipeline .

The utility model is further configured as follows: the body of the seepage pipe adopts an aluminum-plastic pipe or a plastic pipe.

By adopting the above technical solution, the pipe body of the water seepage pipe adopts aluminum-plastic pipe or plastic pipe, which can increase the service time of the water seepage pipe and reduce the cost.

The utility model is further configured as: the pipe body of the seepage pipe is wrapped with an outer buffer layer.

By adopting the above technical scheme, since the body of the seepage pipe has a water hole, in order to prevent water from spraying out of the pipe, which is not conducive to the water supply of plants, the body of the seepage pipe is wrapped with an outer buffer layer, and the outer buffer layer passes through the outer buffer layer. Buffer, absorbs water and then waters plants more gently.

The utility model is further set as: the outer buffer layer adopts natural sponge.

By adopting the above-mentioned technical scheme, when the outer buffer layer is used for a long time, in order to prevent damage to the soil and affect the environment, a natural sponge is used as the outer buffer layer, which is green and environmentally friendly.

The utility model is further set as: the thickness of the outer buffer layer is 2-3cm.

By adopting the above technical scheme, since the outer buffer layer adopts natural sponge, which has certain water absorption performance, in order to prevent the natural sponge from absorbing too much water and affecting the water supply of plants, the thickness of the outer buffer layer is set to 2~3cm, So that the outer buffer layer can achieve the buffering effect without absorbing too much water.

The utility model is further configured as: the water storage bucket and the water collection tank are installed on the ground.

By adopting the above technical solution, in order to facilitate disassembly of the water collection tank from the water storage bucket, both the water storage bucket and the water collection tank are installed on the ground.

The utility model is further configured as: the main pipeline and the seepage pipe are buried under the ground.

By adopting the above-mentioned technical scheme, in order that the water seepage pipe can supply water to the plants well, so that the water can be directly delivered to the root system of the plants, the main pipe and the water seepage pipe are arranged underground.

In summary, the utility model has the following beneficial effects:

First, by setting up water collection tanks and water storage barrels to collect rainwater, the purpose of saving water resources is achieved;

Second, by setting up electric valves, water level sensors, and humidity sensors, all of which are connected to the controller, the purpose of automation is achieved through the controller;

Thirdly, water leakage holes and dosing tanks are provided on the water collection tank, which can deworm the plants.

Description of drawings

Fig. 1 is the structural representation of present embodiment one;

Fig. 2 is a schematic structural view of the seepage pipe and the outer buffer layer of the first embodiment;

FIG. 3 is a schematic diagram of module connection in Embodiment 1;

FIG. 4 is a schematic structural diagram of the second embodiment.

In the figure: 1. Main pipeline; 2. Tee head; 3. Connecting pipe; 4. Water storage bucket; 5. Water collection tank; 6. Leakage hole; 7. Water source faucet; , Humidity sensor; 11, dosing tank; 12, outer buffer layer.

detailed description

Below in conjunction with accompanying drawing and embodiment, the utility model is described in detail.

Embodiment 1: intelligent water-saving landscaping irrigation system, as shown in Figures 1-2, the three-way head 2 pipeline is connected to the main pipeline 1 and the water source faucet 7, and the connecting pipe 3, which increases the source of the main pipeline 1 water source, and connects The pipe 3 is connected to the water storage tank 4, and the water storage tank 4 is connected to the sump 5. The sump 5 can collect rainwater into the water storage tank 4 to save water resources. There is also a filter at the connection between the water storage tank 4 and the sump 5 , to filter the sundries in the rainwater, prevent the sundries from flowing into the pipelines and block the pipelines, the water storage bucket 4 and the water collection tank 5 are installed on the ground, and a water leakage hole 6 is also provided on the water collection tank 5. After insecticide, the water that contains insecticide flows on the plant through leak hole 6, reaches the effect of convenient deinsectization, and the side of sump 5 is welded dosing groove 11, conveniently adds insecticide.

Several seepage pipes 9 are connected to the pipeline at the rear end of the main pipe 1. The main pipe 1 and the seepage pipes 9 are buried underground. The pipe body of 9 is provided with a water hole, and an outer buffer layer is also set on the seepage pipe 9. The outer buffer layer adopts natural sponge, which is beneficial to protect the soil. The thickness of the outer buffer layer is set to 2 ~ 3cm to avoid natural sponge absorption Excessive moisture affects water supply, and water supply through the seepage pipe 9 can effectively reduce the waste of water resources.

As shown in Figure 3, a water level sensor is installed in the water storage bucket 4, an electric valve 8 is arranged on the connecting pipe 3 and the water source tap 7, a humidity sensor 10 is arranged on the seepage pipe 9, a water level sensor, an electric valve 8 and Humidity sensor 10 is all connected with controller, and humidity sensor 10 can detect the humidity in the soil, if humidity is low, signal is transmitted to the controller, and water level sensor can detect whether there is water in water storage tank 4, and signal is transmitted to control device equally. On the device, if there is water in the water storage bucket 4, the controller opens the electric valve 8 on the connecting pipe 3, and supplies water to the plants through the water in the water storage bucket 4; if there is no water in the water storage bucket 4, the controller opens the electric valve 8 on the water source tap 7. The electric valve 8 supplies water to the plants through the water from the water source faucet 7. When the humidity sensor 10 detects that the humidity in the soil is high, it sends a signal to the controller, and the controller closes all the electric valves 8, stops water supply, and realizes automatic control. It effectively improves the utilization efficiency of water resources and reduces the cost of plant maintenance.

Embodiment 2: An intelligent water-saving landscaping irrigation system, as shown in Figure 4, differs from Embodiment 1 in that: the bottom plate and side plates of the water collection tank 5 are mutually socketed to form a telescopic shape, and through the telescopic bottom plate and side plates , so that the covered area of the sump 5 increases, the area for deworming can be increased, and thus more plants can be dewormed.

The above descriptions are only preferred implementations of the present utility model, and the protection scope of the present utility model is not limited to the above-mentioned embodiments, and all technical solutions under the idea of the present utility model all belong to the protection scope of the present utility model. It should be pointed out that for those skilled in the art, some improvements and modifications without departing from the principle of the utility model should also be regarded as the protection scope of the utility model.

Claims (10)

1. null1. an intelligent water-saving afforestation irrigation system，It is characterized in that: include main pipeline (1)，Described main pipeline (1) front end is provided with threeway head (2)，Described threeway head (2) one end pipeline connects connecting tube (3)，Described connecting tube (3) pipeline connects water butt (4)，On described water butt (4) inwall, level sensor is installed，Described water butt (4) pipeline connects water leg (5)，Described water leg (5) offers some leaking holes (6)，Described leaking hole (6) is provided with blocking，The other end pipeline of described threeway head (2) connects water source tap (7)，It is equipped with electrically operated valve (8) in described connecting tube (3) and water source tap (7)，Described electrically operated valve (8) connects controller，Main pipeline (1) rear end pipeline connects some soakaway trench (9)，The body of described soakaway trench (9) is provided with some limbers，Described soakaway trench (9) is provided with humidity sensor (10)，Described humidity sensor (10) and level sensor are all connected on controller.
2. Intelligent water-saving afforestation irrigation system the most according to claim 1, it is characterised in that: described water leg (5) base plate and side plate are mutually socketed in scalable shape.
3. Intelligent water-saving afforestation irrigation system the most according to claim 2, it is characterised in that: described water leg (5) side is fixedly connected with and adds agent groove (11).
4. Intelligent water-saving afforestation irrigation system the most according to claim 3, it is characterised in that: the junction of described water leg (5) and water butt (4) is provided with drainage screen.
5. Intelligent water-saving afforestation irrigation system the most according to claim 1, it is characterised in that: the body of described soakaway trench (9) uses aluminium-plastic pipe or plastic tube.
6. Intelligent water-saving afforestation irrigation system the most according to claim 5, it is characterised in that: the body of described soakaway trench (9) is wrapped with outer cushion (12).
7. Intelligent water-saving afforestation irrigation system the most according to claim 6, it is characterised in that: described outer cushion uses natural sponge.
8. Intelligent water-saving afforestation irrigation system the most according to claim 7, it is characterised in that: the thickness of described outer cushion is 2 ~ 3cm.
9. Intelligent water-saving afforestation irrigation system the most according to claim 1, it is characterised in that: described water butt (4) and water leg (5) are installed on the ground.
10. Intelligent water-saving afforestation irrigation system the most according to claim 1, it is characterised in that: described main pipeline (1) and soakaway trench (9) are embedded in subsurface.