CN201081912Y - Automatic irrigation device - Google Patents

Abstract

The utility model discloses an automatic irrigating device, which comprises a control center and an irrigation area. The control center is a main control machine, which can learn the irrigation and irrigation stopping reference values from the experienced irrigation operation of the user, and then stores the values for repeated study. A solar energy stool plate in a control part of the irrigation area is connected with a secondary battery, with which a controller for controlling an electromagnetic valve is connected. The electromagnetic valve is connected with a spray head and a general water inlet. A solar energy stool plate in a colleting part of the irrigation area is connected with a secondary battery, with which a controller for controlling a soil moisture sensor is connected. The solar energy is adopted by the utility model for the providing power to each part of the system, and the low power dissipation design proposal is taken by the design, so that the service period of the battery is prolonged. The problem that the same irrigation precision can be gained when the same controller is used in various soils is solved by the utility model, which has the advantages of water and energy saving performances and simplified installation.

Description

Automatic irrigation device

Technical field

The utility model relates to a kind of automatic irrigation device of agricultural/horticultural, especially can easy irrigation process, and the conserve water resource is utilized the automatic irrigation device of solar energy as the work energy fully.

Background technology

1. present most of irrigation rigs mostly are timer control, and it fine still raining all can be watered on time, causes the waste greatly of water money.

2. gather the controller of soil moisture in good time, can cause result of detection to hold, thereby cause mistake to be irritated, adopt the sophisticated sensor of import to solve error problem, will greatly improve product price because of the difference of various places soil in bigger error.

3. traditional irrigation system all adopts the AC power supply, and electrical network is set up in the field will improve use cost, increase installation difficulty.

The utility model content

In order to overcome existing deficiency, it is a kind of novel that the utility model provides, the automatic irrigation device of environmental protection, it adopts solar powered, wireless data transmission, soil moisture collection in good time, self study different soils data effectively improve the utilization rate of water resource, simplify installation difficulty.

In order to reach described purpose, the automatic irrigation device that the utility model provides, this device comprises control centre and irrigated area, described control centre learns irrigation on the spot and stops to irrigate reference value for irrigating from user's experience the operation, preserved then, but the main control system of repetition learning; Solar energy electroplax in the control section of described irrigated area connects rechargeable battery, and rechargeable battery connects the controller of control magnetic valve; Described magnetic valve connects shower nozzle and general water inlet; Solar energy electroplax in the collecting part of described irrigated area connects rechargeable battery, and rechargeable battery connects the controller of control soil moisture sensor.

The controller of the controller of described control soil moisture sensor, control magnetic valve, the exchange data using radio communication mode between the control centre.

The utility model adopts solar energy to be system's each several part power supply, and the low power dissipation design scheme is all adopted in all designs, improves the life cycle of battery.Exchange data using radio communication mode between soil moisture collector-solenoid valve controller-control centre solves the wiring trouble.Employing can correspondingly obtain local irrigation data, thereby be reduced in the measure error of different soils greatly using the study of soil data, significantly reduces the simply dependence of control system to sensor accuracy.In the time of can solving same controller and in different soils, use, can obtain identical irrigation precision, water saving, energy-conservation, simplify and install.

Description of drawings

Further specify the utility model below in conjunction with the drawings and specific embodiments.

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

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

According to Fig. 1 as can be known, the automatic irrigation device that the utility model provides, this device comprises control centre and irrigated area, control centre learns irrigation on the spot and stops to irrigate reference value for irrigating from user's experience the operation, preserved then, but the main control system of repetition learning, solar energy electroplax in the control section of irrigated area connects rechargeable battery, rechargeable battery connects the controller of control magnetic valve, described magnetic valve connects shower nozzle and general water inlet, solar energy electroplax in the collecting part of described irrigated area connects rechargeable battery, and rechargeable battery connects the controller of control soil moisture sensor.According to the automatic irrigation device of technique scheme, adopt solar energy to be system's each several part power supply, the low power dissipation design scheme is all adopted in all designs, improves the life cycle of battery.Exchange data using radio communication mode between soil moisture collector-solenoid valve controller-control centre solves the wiring trouble.

This device obtains the soil moisture data by soil moisture sensor from tested soil, by handling the data of being gathered is analyzed then, makes corresponding operatings such as opening or close magnetic valve by processor then.It is to irrigate the operation study on the spot from user's experience that reference value is irrigated in the irrigation of this device institute foundation and stopping, being preserved then, but repetition learning.Solve the detecting error that different soils causes.Employing can correspondingly obtain local irrigation data, thereby be reduced in the measure error of different soils greatly using the study of soil data, significantly reduces the simply dependence of control system to sensor accuracy.

More than be one of embodiment of the present utility model,, do not spend performing creative labour, on the basis of the foregoing description, can do multiple variation, can realize the purpose of this utility model equally for those skilled in the art.But this variation obviously should be in the protection domain of claims of the present utility model.

Claims (2)

1. automatic irrigation device, this device comprises control centre and irrigated area, it is characterized in that, described control centre irrigates and stops to irrigate reference value for irrigating the operation study on the spot from user's experience, preserved then, but the main control system of repetition learning; Solar energy electroplax in the control section of described irrigated area connects rechargeable battery, and rechargeable battery connects the controller of control magnetic valve; Described magnetic valve connects shower nozzle and general water inlet; Solar energy electroplax in the collecting part of described irrigated area connects rechargeable battery, and rechargeable battery connects the controller of control soil moisture sensor.

2. automatic irrigation device according to claim 1 is characterized in that, the controller of described control soil moisture sensor, the controller of control magnetic valve, the exchange data using radio communication mode between the control centre.

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