SU1724114A1 - Soil moisture sensor for spray jet automatic control in greenhouses - Google Patents

Abstract

The invention relates to the mechanization and automation of agricultural production processes and can be used, for example, for the automatic irrigation of plants in greenhouse complexes. The purpose of the invention is to increase the reliability and efficiency of work. The sensor is equipped with a cylindrical receiver and a regulating device. The latter is made in the form of a bucket communicating with each other by means of a pivot-lever system and a throttle valve. The tub is installed in a cylindrical attachment and provided with an elastic spring-loaded element. The latter is located at the end of the belt and has a perforated bottom with a reverse filter. 2 Il.

Description

The invention relates to the mechanization and automation of agricultural production processes and can be used, for example, for automatic watering of plants in greenhouse complexes.

The purpose of the invention is to increase the reliability and efficiency of work.

FIG. Figure 1 shows the general layout of the proposed sensor; in fig. 2 - throttle valve with opening mechanism.

The sensor is hung on the supporting structures 1 for covering the greenhouse and contains the supply pipe 2, the case of the throttle valve 3, the wiring of the pipelines 4, the suspensions 5, the water nozzles 6, the lever 7 of the throttle valve, the pivotally stationary support 8, cylindrical at 9, the bucket 10 with perforated bottom 11, support tables 12 of the coil springs 13, glasses 14, half-bows 15 tubs, suspension 16, screw adjusting device 17, layer-by-layer backfilling 10 tubs in the form of a reverse filter

18. At the same time, the throttle valve and its opening mechanism comprise a slider 20, covering the lever 7, an eyelet 21 of the stem, pivotally coupled to the slider 20, a valve stem 22, a throttle valve 23 rigidly mating with the lower end of the stem 22, the housing cover 24, gland cover 25, gland packing 26, valve seat 27, revision 28, suspension bracket 29 connected to the supporting structures 1. Bad 10 over the return filter 18 is filled with soil and vegetable layer 19 (similarly to the adjacent layers 9 ground).

The sensor is based on the change in the bulk weight of the soil, depending on its humidity. So, in the absence of watering, i.e. in the closed position of the throttle valve 23, the gradual natural drying of the vegetative layer of soil and its underlying layers both on the entire area of the greenhouse and in the bucket 10, leads to a decrease in the total weight of the bucket. Because

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The tub 10 is hung on the coil springs 13, then the tub is lifted up slowly and opened by means of a hinged linkage system of the throttle valve 23 and the next irrigation begins. The bulk weight of the soil and, accordingly, the total weight of the tub 10 increases, the springs 13 contract, the tub 20 slowly lowers, and the throttle valve 23 closes. The described automatic irrigation process is repeated without operator intervention.

Claims (1)

Claims of soil moisture sensor for automatic control of water injectors 0 five in greenhouses, containing a supply pipe, piping, water nozzles and a butterfly valve with a lever, characterized in that, in order to increase reliability and efficiency of operation, it is equipped with a cylindrical attachment and a regulating device, the latter being implemented as communicated among themselves by means of a hinged-lever system installed in the mark and the throttle valve, at the same time the tub is equipped with an elastic spring-loaded element placed on the end face of the seal and has a perforated bottom with a reverse filter.