RU3520U1 - DROPPER - Google Patents

Abstract

1. A dropper containing a hollow body with an inlet fitting, a cover with outlet pipes, the channels of which are connected to the body cavity, and means for dispensing irrigation liquid, characterized in that the cavity of the body is made with the possibility of sediment of irrigation liquid, a mesh filter is installed between the body and the cover and the channels of the outlet pipes are connected to the cavity of the housing through individual metering holes made in the lid. 2. The dropper according to claim 1, characterized in that the body cavity is made in the form of a cylinder with an annular sinus from the bottom, formed by the lateral surfaces of the cylinder and a cylindrical protrusion in the central part of the bottom, and the channel of the inlet fitting is made in the specified cylindrical protrusion. The dropper according to claim 1, characterized in that the mesh filter is made of nylon fabric.

Description

.. ШШ A 01 from 25/02;

KAPE LIN ITA

The utility model relates to devices for local moistening of the soil by the drip supply of irrigation fluid through distributors |.

solid reinforcement to the root system of plants and can be used in greenhouses.

The main requirements for devices for local soil moisture are the dosed supply of irrigation fluid, uniform distribution of water along the channels of the distribution valves and the minimum probability of clogging of the dropper channels.

Known devices (micro-outlets, droppers) in which the specified requirements are provided to one degree or another.

So, according to the USSR author's certificate M551Sh6, a microwire outlet is known, which consists of a hollow body, an elastic diaphragm, an inlet pipe, and two outlet pipes. The elastic diaphragm divides the body into two cavities. The outlet pipes are located on opposite sides of the diaphragm and are movably mounted in the housing.

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with the ability to adjust the distance between the inlet of each outlet pipe and the surface of the diaphragm. When the irrigation fluid is fed into the housing through the inlet pipe, two water flows form on opposite sides of the diaphragm, directed towards the outlet pipes. The pressure on the diaphragm on different sides of the diaphragm is determined by the distances from the diaphragm to the inlet openings of the outlet pipes. The asymmetric installation of the outlet pipes relative to the elastic diaphragm ensures its oscillations between the openings of the outlet pipes, which reduces the effect of pressure pulsations on the flow rate

- Irrigation fluid through the outlet pipe and reduces the likelihood of clogging of the micro-duct.

Common features of the analogue and the claimed solution are a hollow body with an inlet fitting, outlet pipes, the channels of which are connected to the body cavity and also the best means for dispensing irrigation fluid.

The design of the micro-exhaust contains a constantly deforming elastic element, which reduces the durability and reliability. In addition, when solid suspensions are commensurate with the size of the channels of the outlet pipes, they become clogged, which is not eliminated by diaphragm vibrations. Oscillations of the diaphragm are shifted towards the non-clogged nozzle, Fak as the static pressure of water rises from the side of the clogged nozzle. In this case, a new equilibrium mode is established with a different flow rate of water through the outlet pipes, that is, the normal mode of operation of the micro-outlet in terms of the uniform distribution of the irrigation fluid over the outlet pipes is violated. .

A dropper is also known according to the USSR author's certificate No. 1553036, which includes a lid with an inlet iguzer, a housing with outlet pipes, inside of which there is an elastic dome-shaped membrane with a metering hole. The base of the body is also made domed with a rod on top. The core is located in the metering hole of the membrane. The periphery of the membrane is equipped with a corrugated rim. On the generatrix of the domed base

   . -. the hulls are made with water conduits, as well as flow dividers., The supporting plane of the base is made with channels connected to the openings of the outlet pipes

A dropper works as follows. Water from the pressure pipe enters the cavity with a lid and a membrane and through the metering hole of the membrane it enters the surface of the base, where it is evenly distributed due to the presence of rib-hydrogen pi flow dividers. When the pressure increases, the membrane is pressed against the rib-water conduits, forming water-conducting channels. The dropper starts to work in the throttling mode of the water flow. When the working pressure changes, the membrane with greater or lesser force is pressed against the water supply ribs, changing the living section of the water supply channels and providing self-regulation of the flow rate. made on the top of the domed base of the corsus and located in the metering hole of the membrane, performs cleaning of the metering hole when moving the membrane. "

Common signs of an analogue and a proposed decision are

hollow body, cover, inlet fitting and outlet pipes, channels

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which are connected with half a half of the couscous, as well as means for dispensing irrigation fluid. -,

Despite the complexity of the design, in particular the complexity of the design of its elements, the dropper does not provide a uniform distribution of the irrigation fluid over the outlet pipes, as

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in practice, it is difficult to achieve the same ka properties through the route 11p1x. the deposits formed by water conduits and an elastic membrane pressed to them, the more conditions when the degree of membrane compression depends on the hydrostatic pressure in the main pipeline. In addition, in the operating mode, it is possible that solid suspensions may enter the irrigation fluid, which can clog the metering hole in the membrane, as well as any of the dosing channels ..:

As a prototype, a dropper manufactured by Ш Baltakvoplastika (Latvia) was selected, which contains a housing with an inlet fitting, a cover with four outlet nozzles, a rubber disk with a metering hole located between the cover and the housing, and a union nut providing a plug-in connection of the cover to the housing and clamping the rubber disk along its perimeter between the cover and the body. The rubber disk divides the cavity formed by the corsus and the lid into two parts that communicate with each other through

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dosing hole in the rubber disc. Irrigation fluid enters through the inlet fitting under the rubber disk, then through the metering hole in the rubber disk to another part of the cavity formed by the body and the cover, from where through the openings of the outlet pipes through the distribution valves for local irrigation.

Common features of the prototype and the claimed solution are, a polished corus with an inlet fitting, a lid with outlet pipes || f. -.-: the bays of which are connected with the body cavity, as well as the availability of means for dispensing irrigation fluid.

As the practice of operating this dropper showed, in particular at the Simferopol experimental greenhouse plant, its drawbacks are the contamination of the dosing hole in the rubber. -, -N.-.

disk and irregular distribution of the irrigation fluid over the outlet pipes. -Zaoorlemnost caused by lack of relatives for offbuoy-fi-filtering of half a hundred and the uneven distribution of dvlv-gpsh zkidgsootp on the outlet pipe. Clogging is caused by the lack of funds for sludge and filtration of storing fluid, and the irregularity of the distribution of fluid in the outlet nozzles is associated with the distribution of fluid through one dispensing hole to several outlet nozzles. Under such distribution conditions, the dosed volume of liquid flows through the vyosoda nozzles depending on the hydraulic resistance of the channels in the outlet pipes, which can vary quite widely during the operation of the dropper, redistributing the fluid flow between the outlet pipes. ,,

The claimed utility model is based on the task of improving dropper drops, in which, due to the design features of the execution, a more even distribution of polyhydrous liquid over the outlet pipes would be ensured and solid suspensions would not get into the metering holes and, as a result, the quality of local irrigation would increase and decrease.

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probability of clogging the dropper.

The problem is solved in that in a dropper containing a housing with an inlet fitting, a cap with outlet nozzles, channels which are connected to the cavity of the housing, as well as means for dispensing irrigation fluid, according to the claimed utility model, the cavity is made with the possibility of settling irrigation fluid between the housing and the lid is equipped with a strainer, and the channels of the outlet pipes are connected to the cavity of the housing through individual metering channels made in the lid.

These signs make up the essence of the claimed utility model, as they are necessary and sufficient for achieving the task in various embodiments of the utility model.

Preferably, the housing cavity is made in the form of a cylinder with an annular sinus from the bottom, formed by the lateral surfaces of the cylinder and a cylindrical protrusion in the central part of the bottom, and the channel of the inlet fitting is made in the specified cylindrical protrusion.

It is advisable to mesh filter made of nylon fabric.

The indicated features of dropping a dropper are not obligatory, but are only preferable from the point of view of the applicant, and do not exclude other options for implementing the utility model within its essence.

The implementation of the body cavity in the form of a sump, provides for the possibility of settling on the bottom of the cavity of solid suspensions coming with irrigation fluid. Bole © light suspensions that may

to get carried away by the flow of irrigation water towards the dosing holes, they are delayed by a retouched filter and from time to time on the bottom

ose lnugg

  ,. -A .;.- - , ,, ; these inclusions are much smaller than the size of the metering holes

and do not cause clogging. The implementation of a dispensing hole for each outlet pipe, the lack of means for preliminary dosing of the total flow rate of the irrigation fluid, as well as the sediment and filtering of the irrigation fluid ensure uniform distribution of the irrigation fluid over the outlets: one nozzle and reduce the likelihood of clogging of the dropper. Thus, the features that make up the essence of the utility model are in a causal relationship with the achieved technical result.

For a more complete understanding of the essence of the claimed utility model, below is a description of one of the possible options for its implementation with reference to the drawing, which shows a General view of the dropper in section.

The dropper consists of a housing I with an inlet fitting 2, a cover 3 with output nozzles 4,5,6, a filter 7 installed between the housing I and the cover 3. The canal 8 of the outgoing nozzles 4,5,6 communicate with the cavity 9 of the housing I through individual metering holes 10, the Cavity 9 of the housing I is made with the possibility of sediment in it of the irrigation fluid. In the described embodiment, the cavity ,, 9 is formed by a cylindrical surface II and the bottom 12. In the bottom 12 there is an annular sinus 13 formed by a cylindrical surface II and, by a cylindrical protrusion 14 in the central part of the bottom 12, the Channel 15 of the inlet fitting 2 is made in a cylindrical protrusion 14. The mesh filter 7 is made of nylon fabric for screens, article 32-64, and is installed between the sealing rings 16 and 17.

A dropper works as follows. Irrigation fluid is supplied through inlet fitting 2. When irrigation fluid enters cavity 9, the flow rate slows down due to the relatively large volume of cavity 9. Occurrence: fluid settles, in which solids settle on the bottom 12 in the annular sinus 13. Further

s.s //

irrigation fluid passes through a strainer 7, which traps small suspended particles that do not have enough time to settle on the bottom 12 during sludge and are carried away by the fluid flow. When the liquid supply is cut off, these small particles eventually settle on the bottom 12, i.e., the filter 7 is partially self-cleaning and. reliably performs its function throughout the period of operation of the dropper before the preventive flushing of the system. After passing through the filter 7, the irrigation fluid enters the metering holes 10 and then through the channels 8 of the outlet pipes 4,5,6 it is directed through the distribution fittings (not shown) to the root system of the plants. The irrigation fluid remaining in the housing I and passing through the filter 7 may contain only fine suspensions that are not able to clog the metering holes 10 and channels 8 of the outlet pipes .4,5,6.

; The inventive dropper has a simple design, evenly distributes the irrigation fluid in the local irrigation system, reliable in operation, since the design does not have moving or deformable elements, and the likelihood of clogging is much lower,

than existing droppers.

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Applicant (.YU. VDOROV

Claims (3)

1. A dropper containing a hollow body with an inlet fitting, a cover with outlet pipes, the channels of which are connected to the body cavity, and means for dispensing irrigation liquid, characterized in that the cavity of the body is made with the possibility of sediment of irrigation liquid, a mesh filter is installed between the body and the cover and the channels of the outlet pipes are connected to the cavity of the housing through individual metering holes made in the lid.  2. The dropper according to claim 1, characterized in that the body cavity is made in the form of a cylinder with an annular sinus from the bottom, formed by the side surfaces of the cylinder and a cylindrical protrusion in the central part of the bottom, and the channel of the inlet fitting is made in the specified cylindrical protrusion.  3. The dropper according to claim 1, characterized in that the strainer is made of nylon fabric.