CN203618486U - Quantitative deep water-saving irrigation device - Google Patents

Abstract

The utility model relates to the technical field of water-saving irrigation, in particular to a quantitative deep water-saving irrigation device. Through soil deep water supply, roots of plants are induced to be distributed downwards, so that the rate of survival of the plants is increased, saving and efficient utilization of water are implemented. The quantitative deep water-saving irrigation device comprises a water storage tank, water distributing pipes, water level inductors, water storage valves, water storage boxes, a water manifold, a ceramic water stop head, a support pipe, control lines and air vents, wherein the water storage tank is used to supply water to each water storage box through the water distributing pipes; the water distributing pipes are connected with the water storage boxes by the water storage valves; the water level inductors are arranged in the water storage boxes; the air vents are formed at the upper ends of the water storage boxes; the water level inductors control the water storage valves through the control lines; the lower ends of the water storage boxes are connected with the water manifold; the lower end of the water manifold is connected with the ceramic water stop head; the support pipe sleeves the outer sides of the water storage boxes to support the same.

Description

A kind of quantitatively deep layer Water saving type watering arrangement

Technical field

The utility model relates to for water-saving irrigation technique field, particularly relates to a kind of quantitatively deep layer Water saving type watering arrangement.

Background technology

The existence of plant be unable to do without moisture, maintain the normal growth of plant, just must meet its demand to moisture, and except natural precipitation, the mode of conventionally taking is irrigated exactly.At present, plant irrigation technology mainly contains flood irrigation, sprinkling irrigation and drip irrigation etc., is surface irrigation.But water requirement difference between different plants, also there is larger difference in the water requirement of different growing stage in same plant even, if adopt above-mentioned surface irrigation mode, moisture is except being absorbed by soil and plant, major part slatterns through Remote sensing, and because root system of plant has hydrotropism, surface irrigation makes root system of plant at soil shallow layer growth, drought-resistant ability declines, and finally causes plant death.

Summary of the invention

For solving the problems of the technologies described above, the utility model provides a kind of and has supplied water by deep subsoil, and inducing plant root system distributes downwards, improves plant drought ability, and then improves plant survival rate, realizes saving and the efficient device utilizing of moisture.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, comprise water tank 1, distributive pipe 2, water level sensor 3, retaining valve 4, storage tank 5, aqueduct 6, ceramic head 7 blocks water, stay pipe 8, control line 9, air vent 10, water tank is fed to water in each storage tank through distributive pipe, distributive pipe is connected by retaining valve with storage tank, in storage tank, be provided with water level sensor, storage tank upper end is provided with air vent, water level sensor is by control line control retaining valve, storage tank lower end is connected with aqueduct, aqueduct lower end is connected with the ceramic head that blocks water, storage tank outside cover has stay pipe to support.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, described aqueduct can variation length, changes water supply position.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, the replaceable size of described water tank, changes output.

Quantitative deep layer Water saving type watering arrangement of the present utility model, described in the replaceable density of ceramic head that blocks water, change and water speed.

advantage of the present utility model is for being:

(1) compare with traditional irrigation mode, moisture is delivered directly to deep subsoil by this device, reduced moisture evaporation, and using water wisely has improved the utilization ratio of plant to moisture, and in the areas of serious such as desert, Gobi desert, effect is more obvious; (2) can need to regulate the aqueduct degree of depth according to plant growth, inducing plant root system distributes downwards, improves plant drought ability and survival rate; (3) this device regulates the retaining process in storage tank by water level sensor, can avoid retaining excessive, and moisture overflows from air vent, can guarantee again the lasting supply of moisture.

Accompanying drawing explanation

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

Fig. 2 is the utility model storage tank schematic top plan view.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples are used for illustrating the utility model, but are not used for limiting scope of the present utility model.

As shown in Figure 1, the quantitative deep layer Water saving type watering arrangement of one of the present utility model, comprises water tank 1, distributive pipe 2, water level sensor 3, retaining valve 4, storage tank 5, aqueduct 6, the ceramic head 7 that blocks water, stay pipe 8, control line 9, air vent 10; Water tank 1 is fed to water through distributive pipe 2 in each storage tank 5, distributive pipe 2 is connected by retaining valve 4 with storage tank 5, in storage tank 5, be provided with water level sensor 3, storage tank 5 upper ends are provided with air vent 10, water level sensor 3 is controlled retaining valve 4 by control line 9, storage tank 5 lower ends are connected with aqueduct 6, and aqueduct 6 lower ends are connected with the ceramic head 7 that blocks water, and storage tank 5 outside covers have stay pipe 8 to support.Like this, when use, first near plant, punch, and distributive pipe is put into hole; Set up water tank, while putting, extreme lower position is higher than storage tank; When device work, because the effect moisture of gravity carries out automatic water-supply process through distributive pipe automatic transmission from water tank to each storage tank, water level in original state lower water tank is zero, be water level sensor lower limit, now retaining valve is opened retaining automatically, prescribe a time limit when water level reaches on inductor, storage tank has held full water, and retaining valve is automatically closed and stopped retaining.Water in storage tank flows downward along aqueduct, by the ceramic head that blocks water, can make water slowly be injected into underground set depth.When storage tank middle water level again lower than water level sensor under in limited time, retaining valve is opened retaining again, so moves in circles, and finishes until irrigate.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, a water tank can connect multiple distributive pipes and supply water to multiple storage tanks simultaneously.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, storage tank is arranged on aqueduct upper end for removably connecting, and connected mode can comprise the modes such as gluing or spiral is fixing.

The quantitative deep layer Water saving type watering arrangement of one of the present utility model, the ceramic head that blocks water is arranged on aqueduct lower end for removably connecting, and connected mode can comprise the modes such as gluing or spiral is fixing.

Below be only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, do not departing under the prerequisite of the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims (7)

1. a quantitative deep layer Water saving type watering arrangement, it is characterized in that, comprise water tank (1), distributive pipe (2), water level sensor (3), retaining valve (4), storage tank (5), aqueduct (6), the pottery that blocks water (7), stay pipe (8), control line (9), air vent (10).

2. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, it is characterized in that, water tank is fed to water in each storage tank through distributive pipe, distributive pipe is connected by retaining valve with storage tank, is provided with water level sensor in storage tank, and storage tank upper end is provided with air vent, water level sensor is by control line control retaining valve, storage tank lower end is connected with aqueduct, and aqueduct lower end is connected with the ceramic head that blocks water, and storage tank outside cover has stay pipe to support.

3. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, is characterized in that, described storage tank upper end has an air vent.

4. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, is characterized in that, the replaceable size of described storage tank.

5. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, is characterized in that, the replaceable size of described water tank.

6. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, is characterized in that, described aqueduct disposable length.

7. the quantitative deep layer Water saving type watering arrangement of one as claimed in claim 1, is characterized in that, described in the replaceable density of ceramic head that blocks water.

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