(57) Abstract:Use: agriculture, namely in sprinkler technology for irrigation of agricultural crops. The inventive sprinkler apparatus includes a barrel 1 with the nozzle 2, the axial tube 3, one end of which is communicated with the atmosphere, and the other perforated located outside of the barrel 1 at a distance of not less than 0.5 nozzle diameter, and the ratio of the inner diameter of the axial tube 3 to the nozzle diameter are in the range of 0.1 ... 0.25 in. 2 Il. The invention relates to agriculture, namely the sprinkler technique.Known delestraint machine are delivered to the suction line of the pump atmospheric air that allows you to adjust the performance of the machine 
Known delestraint sprinkler apparatus, which can improve the crushing of the water jet into droplets, inside the barrel of the device applied pneumospray in the form of an axial tube with a nozzle on the end 
The disadvantage of this design is the need for compressed air, i.e., significant complexity and cost of construction. In addition, since the nozzle ends in the barrel, the air emerging from the us is the thread mentioned disadvantages of the proposed device allows. - Sprinkling apparatus containing the barrel, a nozzle, an axial tube, air feed, characterized in that one end of the axial tube communicated with the atmosphere and the other end is located in the zone of maximum compression of the jet, at a distance of not less than 0.5 of its diameter from the edge of the barrel, whereby the output end of the axial tube is perforated, and the ratio of tube diameter to the diameter of the jet is 0.1 to 0.25.In Fig. 1 shows the sprinkler apparatus of Fig. 2 a view of the top nozzle.Sprinkler apparatus consists of a shaft 1, which is fixed to the nozzle 2. Inside the barrel axially posted by tube 3, one end of which 4 communicates with the atmosphere, and the other perforated end 5 is located behind the nozzle coaxially to its axis.Sprinkler apparatus operates as follows.Water flows down the barrel 1 and through the nozzle 2, where the pressure energy is converted into kinetic energy, flows out into the atmosphere. At the distance of 0.5 output nozzle diameter from the trunk to reach the maximum speed of expiration of the jet and the maximum vacuum. Due to the pressure difference between the atmospheric air through the end 4 of the tube 3 is absorbed and transported by the stream, contributing to intense fragmentation of the jet region of maximum compression of the jet, perforated.Thus, the proposed device allows to improve the quality of rain, which reduces soil compaction, and hence the erosive impact of rain. In addition, the proposed device allows to simplify the design, to improve the reliability of the apparatus and to reduce the energy intensity of rainfall. Sprinkling apparatus comprising a barrel with a nozzle, an axial tube, air feed, characterized in that the axial tube one end of which is communicated with the atmosphere, and the other displayed in the zone of maximum compression of the jet, at a distance from the end of the nozzle equal to not less than 0.5 of its diameter, whereby the output end of the axial tube is perforated, and the ratio of tube diameter to the diameter of the nozzle is in the range of 0.1 to 0.25.
FIELD: agricultural engineering, in particular, equipment for drop irrigation of farm crops.
SUBSTANCE: apparatus has cylindrical casing with inlet and outlet openings. Cylindrical casing has threaded covers and body. Valve and elastic cuff are movably positioned inside cavity of cylindrical casing. Apparatus is further equipped with additional cuff. Main and additional cuffs are provided with orifices. Valve is made in the form of concavo-concave lens arranged in spherical belt. Valve is manufactured from material having density smaller than density of water, in particular, valve may be made from cork of 0.2-0.3 t/m3 density. Valve is arranged in casing between cuffs and is adapted for alternating contacting through cuffs with projections oppositely arranged inside casing cavity. Projections are made in the form of spherical segments, with radius of spheres of segments being smaller than radius of spheres of concavo-concave valve lens. Difference between radii of projection sphere and that of spheres of concavo-concave valve lens is equal to thickness of elastic cuffs. Channels on apexes of cover and casing projections are extending in radial direction toward inlet and outlet openings.
EFFECT: increased efficiency and enhanced reliability in operation.
4 cl, 4 dwg
FIELD: irrigation amelioration, in particular, drop irrigation equipment.
SUBSTANCE: injector has water outlet, porous casing with stopper at lower end and replaceable porous member positioned in casing and in stopper. Replaceable porous member is made in the form of parts of cylinder joined to one another with their diametrical surfaces. Channels are formed on cylindrical surface of each cylindrical part. Upon joining of cylindrical parts along cylinder, channels define vertical channels. Cylinder may have one, two or three detachment surfaces. Helical channels are formed on cylindrical parts of replaceable porous member. Helical channel pitches in parts of cylinder to be joined are not multiple one another. Water outlet is equipped with float valve arranged inside water outlet above pressure suppressing chamber. Stopper at lower end of porous casing is equipped with accumulating chamber.
EFFECT: increased efficiency owing to selective dispensing of water to plant roots.
2 cl, 5 dwg
FIELD: irrigated agriculture, in particular, equipment used for watering of perennial plants.
SUBSTANCE: dropper has casing and cover with inlet and outlet branch pipes, respectively, throttle and elastic balancing member with openings. Throttle is made in the form of hollow biconcave lens and positioned in casing cavity above elastic balancing member. Spherical segment-shaped slot is formed in cover body below inlet branch pipe. Radius of spherical part of said slot is equal to radius of throttle lens spherical part. Similar slot is formed in bottom part of casing above inlet branch pipe. Radius of said slot is greater than radius of spherical part of throttle biconcave lens part by value equal to thickness of balancing member. Channels are formed on casing bottom part surface and on slot surface to define spiral branches. Holes are made on peripheral part of elastic balancing member.
EFFECT: simplified construction and improved watering quality.
2 cl, 6 dwg
FIELD: agricultural engineering.
SUBSTANCE: apparatus has casing equipped with inlet and outlet openings, main float-type regulating members and additional regulating member, said members being located inside casing. Main float-type regulating member is made as biconcave lens formed in spherical layer of waterproof material having density below 1 t/m3. Additional regulating member is made in the form of elastic membrane with central opening. Protrusions made as parts of spherical segments are disposed in casing cavity below inlet opening and above outlet opening. Radius of upper protrusion spherical part is equal to radius of spherical part of biconcave lens. Radius of lower protrusion spherical part is less than radius of spherical part of biconcave lens by value equal to thickness of elastic membrane. Radial channels are formed in apex part of lower protrusion. Apparatus provides for normal operation in the process of drop irrigation with water without preliminary cleaning thereof.
EFFECT: increased efficiency, uniform and high-quality irrigation.
2 cl, 3 dwg
FIELD: agricultural engineering, in particular, drop irrigation equipment.
SUBSTANCE: dropper has casing with inlet and outlet branch pipes. Float and locking member are located in casing. Hollow float is made in the form of biconvex lens. Slot is made in casing cavity of inlet branch pipe. Slot is formed as spherical segment with radius of sphere equal to or smaller than radius of sphere of float biconvex lens. Spherical segment shaped slot is formed in casing cavity of outlet branch pipe. Radius of sphere of said slot exceeds that of float biconvex lens. Locking member is defined by elastic membrane located in casing between float and outlet branch pipe. Inlet branch pipe and slot joined with membrane surface are equipped with radial channels. Dropper of such construction operates in any spatial position and does not require strict vertical positioning.
EFFECT: simplified construction and uniform and high-quality irrigation.
3 cl, 3 dwg
FIELD: agricultural amelioration, in particular, drop irrigation equipment.
SUBSTANCE: dozer-dropper has plastoelastic valve provided in irrigation pipeline. Plastoelastic valve adapted for supplying of water into injector has detachable casing with water supply channel formed as helical groove with conical openings at its surface, said openings being adapted for connecting helical channel with casing outer surface. Diameter of conical opening joined with said channel is smaller than that at casing outer surface.
EFFECT: increased yield of farm crops and reduced irrigation norms.
FIELD: agricultural amelioration, in particular, subsurface irrigation equipment.
SUBSTANCE: injector has detachable casing with water feeding channel. Casing cavity is equipped with helical groove having conical openings on casing surface. Openings are hydraulically communicated with helical groove. Diameter of each of said openings joined with helical groove is smaller than that of outer surface of casing.
EFFECT: improved uniformity in distributing of precipitation in root layer of soil during the entire irrigation season.
2 cl, 3 dwg
FIELD: agricultural engineering, in particular drop irrigation equipment.
SUBSTANCE: dropper has cover, casing, regulating member, and water outlet. Cover with feeding connection line is mounted on irrigation pipeline. Water outlet with discharge pipeline is mounted in lower part of casing. Cover with feeding connection pipe and water outlet with discharge pipe are equipped with flares arranged in opposite relation with respect to one another. Regulating member has flexible elastic membranes equipped with dosing orifices and float positioned for loose displacement between flexible membranes. Membranes are fixed in casing by means of threaded cover and water outlet.
EFFECT: increased efficiency and enhanced reliability in operation.
2 cl, 1 dwg
FIELD: agriculture, in particular, utilization in irrigated agriculture for drop irrigation of soil, preferably for tree seedlings.
SUBSTANCE: injector has porous casing with inlet and outlet openings and water outlet. Float-type regulating member arranged in water outlet is equipped with water locking valve arranged in its upper part. Air discharge valves are provided in upper part of water outlet above float-type regulating member. Openings of different depth are formed in porous casing. Said openings are extending in parallel with outlet opening, in ribs of ground engaging devices. Number of ribs of ground engaging devices exceeds two. Ribs have saw-shaped form.
EFFECT: provision for differentiated distribution of precipitation in accordance with amount of sucking roots of wood plantations in soil horizons.
2 cl, 6 dwg
FIELD: irrigation equipment, in particular, fine-dispersion or drop sprinkling equipment used in mobile and stationary sprinkler units for producing of sprays with droplet sizes admissible for irrigation of wide range of farm crops.
SUBSTANCE: sprinkler unit has hollow cylindrical casing with partition wall, wherein guiding rod is rigidly fixed centrally of partition wall. Conical deflector with curved grooves is fixed on guiding rod for displacement along it. Location of conical deflector in predetermined position on guiding rod is provided by means of adjustment nut which may is fixed by lock nut. In order to form uniform liquid film around perimeter of conical deflector, grooves are provided in such a manner that they do not reach edge by distance equal to width of casing outlet opening ring, when conical deflector is lifted to maximal extent. Fluoroplastic layer is built in friction surface of conical deflector.
EFFECT: increased efficiency in producing of finely dispersed uniform spray, simplified construction and enhanced reliability in operation.