SU917804A1 - Device for determining time of watering - Google Patents

Description

(S) DEVICE FOR DETERMINING TERMS The invention relates to agriculture and can be used in irrigated agriculture to determine: irrigation periods under conditions of close standing of the groundwater level to the root layer of soil. A device for determining the irrigation time is known, based on the connection of a complex hydrometeorological indicator with soil moisture and performed on a relative evaporation sensor. Such a device does not take into account the proportion of feeding the root layer of the soil with groundwater when they are close to it, i.e., it does not provide water savings. Another device for determining irrigation timing is known, which contains an evaporator that is hydraulically connected via a pipeline with a feed tank, and an observation well with a float sensor 2. WATERING This device does not take into account the mechanical composition of the soil, which leads to overflow of irrigation water. The aim of the invention is to save irrigation water by taking into account the proportion of feed of the root layer of soil with groundwater and the mechanical composition of the soil. The goal is achieved by the fact that the pipeline is provided with a feed with calibrated holes, kinematically connected with a float sensor, and the feed with a scale calibrated in accordance with the mechanical composition of the soil. The drawing shows a device for determining the timing of irrigation. The device for determining the irrigation time contains an evaporator 1, which is hydraulically connected by a tube 2 to a feed tank 3, which is equipped with a drain hole, an feedwater 5, which is kinematically connected through blocks 6 ff to a bucket sensor 8 located in the wellshaft 9. Sensor 8 balanced by the counterweight 10, In the feeder 5, calibrated holes 11 are made, located at different heights. In addition, it is equipped with a scale of 12. The device operates as follows. The evaporator simultaneously with water supply to the irrigated field is filled with water, i. Water consumption on the field and evaporation from the evaporator occurs simultaneously, depending on the same external conditions. With the evaporator, the scientific research institute of a given volume of water from the evaporators, which corresponds to the achievement of a pre-irrigation value of soil moisture on the field, the evaporator sensor sends a signal for water supply. When the level of groundwater rises and its height (1.5–2.5 m from the ground surface), the root layer of Yul.et is fed from them, because of which the water flow will be extended. As the water level rises in the observation well, the float sensor will rise, the counterweight will be lowered. And through the blocks .6 and 7, the feeder will be lowered. Through the calibrated holes, the water enters the evaporator through the tube, compensating some of the water evaporated from it, the calibrated holes and the kinematics are selected so that, when the groundwater depth is 1.5 m, the evaporator is compensated for evaporation in the amount of kS%, at 2.0 m - 301, 2.5 m-15 from the evaporated amount of water. from the vaporizer. The latter will receive the amount of water proportional to the amount of feed of the root layer of soil by groundwater spent on transpiration and evaporation. In this connection, the evaporator will evaporate the water for a longer period and signal for water supply. will come by taking into account the proportion of plants using groundwater ,. For light soil mechanical composition, the height of the capillary rise of water will be less than for heavy ones, in accordance with which groundwater recharge by the root & t layer will vary. In connection with this, the feeder is equipped with a scale, calibrated in accordance with the mechanical composition of the soil, along which the end of the thrust of block 6 is rearranged, which provides a different depth of the feeder with different mechanical composition of the soil, but with the same level of Ground Water in the observation well. The scale has three gradations: L - light, C - medium. T - heavy soil mechanical composition. The higher the feeder is installed relative to the level of water in the feed tank, the less evaporation is compensated from the evaporator and the faster the delivery period will be. The proposed device ensures the delivery of a signal for water flow when the groundwater flow rate is close to (from 1.5 to 2.5 m) considering them. the depth and mechanical composition of the soil, which allows to save irrigation water on claims -1, a device for determining irrigation periods, including an evaporator, which is hydraulically connected through a feed tank, and an observation well with a float sensor, so that, in order to save irrigation water by taking into account the share of feeding the root layer of soil with groundwater and the mechanical composition of the soil, the pipeline is equipped with a make-up with calibrated holes, nematic associated with a float sensor, 2, a device in accordance with claim 1, characterized in that the feeder is provided with a scale graduated in accordance with the mechanical composition of the soil. Sources of information taken into account in the examination 1. USSR author's certificate number, cl. And 01G 25/00, 1972. 2. The author's certificate of the USSR If 67379, cl. A 01G 25/16, 1979.

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Claims (2)

Claim Ί. A device for determining the timing of irrigation, including an evaporator hydraulically connected through a pipe with a supply tank, and an observation well with a 35 float sensor, which is designed to save irrigation water by taking into account the proportion of recharge root layer of soil by groundwater and soil mechanical composition, the pipeline is equipped with a feeder with calibrated holes, kinematically connected with the float sensor. 2. The device according to π, 1, characterized in that the feeder · is equipped with a scale graduated in accordance with the mechanical composition of the soil.