UA28982U - Drip fertilizer injector - Google Patents

Abstract

A drip fertilizer injector includes a body with an outlet spout. On the outlet spout an additional container as a truncated cone is arranged, this is connected to the spout by means of a special nipple and is equipped with a valve as a flexible stopping membrane. The flexible membrane divides the additional container into two hollows: an above-membrane one and an under-membrane one, the special nipple has two channels inside, one of which connects the outlet spout of the body with the above-membrane hollow and the second one simultaneously connects the above-membrane hollow with the under-membrane one and atmosphere. The inlet of the second channel of the special nipple is arranged in the upper part of an additional container.

Description

Description of the invention

A useful model relates to irrigated horticulture, namely drip irrigation devices with 2 simultaneous application of mineral fertilizers with irrigation water.

Known drip irrigation systems do not provide the possibility of applying different doses of fertilizers to each plant or group of plants.

Commonly known drip water outlets that allow fertilizer solutions to be introduced and include a body, a cover and a regulating membrane (aes. USSR Mo935011 kl. IPC AO1 o. IPC OY at 25/00). However, the indicated drip water discharges ensure the introduction of mineral fertilizers with irrigation water only as part of the drip irrigation system if a special device is available. At the same time, the doses of mineral fertilizers are determined by calculation and have the same values for all plants irrigated by this system.

The closest in terms of technical essence and design is the well-known dripper K-383. etc. - M.: Agropromizdat, 1990. - 336bs.|, which consists of a case, a cover and a regulating membrane. Regulation of water flow is carried out by changing the cross-sectional area of the working channel made on the inner conical surface of the cover. The dripper is sufficiently reliable in operation and ensures a constant flow of water or a solution of mineral fertilizers, regardless of the pressure in the irrigation pipeline. However, the K-383 dripper, like other drippers of a similar type, does not allow different doses of mineral fertilizers to be applied to each plant or group of plants.

The basis of the proposed useful model is the improvement of the drip outlet by using an additional container in the form of a truncated cone, which is installed on the outlet of the body, connected to it by means of a special nipple and equipped with a valve in the form of a flexible closing membrane.

At the same time, the flexible membrane divides the capacity into two cavities - supramembrane and submembrane, and the nipple 22 has two channels inside, one of which connects the outlet of the body with the supramembrane cavity, and the other simultaneously connects the supramembrane cavity with the submembrane and the atmosphere. At the same time, the entrance of the second channel of a special nipple is located in the upper part of the additional container.

The proposed design of the drip hydrofertilizer provides the possibility of applying different doses of fertilizers to each irrigated plant or group of plants. high school

The essence of a useful model is explained by drawings. Fig. 1 shows a longitudinal section of the drip irrigation system during its operation in the normal irrigation mode, Fig. 2 shows a longitudinal section of the drip irrigation system in the fertilizer irrigation mode, and Fig. 3 shows a section along AA. at

The drip irrigation system in its general form consists of a dropper 1, a container 2 and a connecting nipple 3. The dripper 1 consists of a body 4, a cover 5 and a rubber regulating membrane 6. An annular protrusion 7 is made on the cover 5, which is intended for connecting the irrigation system to the irrigation pipeline ( not shown in the figure). On the inner conical surface of the housing 4, a calibrated working channel 8 is made, which, together with the regulating membrane, ensures a constant flow of water regardless of the pressure in the irrigation pipeline. The connection of the body 4 and the cover 5 is carried out with the help of a cut 9. On the outer surface of the body 4, an outlet pipe 10 is made, to which an additional container 2 is connected by means of a nipple C, C 50 is intended for dissolving solid mineral fertilizers and ensuring their specified concentration at exits from the drip hydraulic feeder. Additional capacity 2 is connected to nipple C using

From" of the union nut 11 with a hole 12. On the annular protrusion 13 of the nipple Z, a closing membrane 14 is installed, which divides the additional capacity 2 into two cavities - supra-membrane and sub-membrane. The nipple Z is connected to the outlet pipe 10 of the body 4 of the dropper 1 using a cut 14. Inside the nipple Z, a system of channels is made, which provides two modes of operation of the drip irrigation system - the normal watering mode, which is schematically shown in Fig. 1, and the fertilizing mode irrigation system, which is schematically shown in Fig.2.

In the mode of normal irrigation, the shut-off membrane has a horizontal position and water from the irrigation pipeline through channel 15 of the cover 5 enters into the dripper 1, after passing through which through 20 channels 17, 18 and 24 it enters the cavity 22 and further through the opening 12 of the cap nut 11 on watering

To carry out fertilizing irrigation, a given dose of soluble mineral fertilizer 19 (for example, urea) is poured into the additional container 2 and the drip irrigation system is turned on. At the same time, water from the irrigation pipeline through the dropper 1 and channels 17 and 18 of the nipple Z enters the supramembrane cavity of the container 2, gradually dissolving the fertilizer 19 and raising the level of the solution in the container. After 29 reaching the level of the solution of the entrance 20 of the channel 21 of the nipple 3, it enters the cavity 22 through this channel and through the hole 12 of the union nut 11 to the plant.

After the end of regular or fertilizing irrigation, the membrane takes a horizontal position and the remaining water or fertilizer solutions freely leave the container 2, preventing its contamination and violation of reliability in operation.

Claims (2)

The formula of the invention 1. A drip hydraulic feeder, which includes a body with an outlet nozzle, which is characterized by the fact that an additional container in the form of a truncated cone is installed on the outlet nozzle, connected to it using a special nipple and equipped with a valve in the form of a flexible closing membrane. 2. The drip hydraulic feeder according to claim 1, which is characterized by the fact that the flexible membrane divides the additional capacity into two cavities: supra-membrane and sub-membrane, and a special nipple inside has two channels, one of which connects the outlet of the body with the supra-membrane cavity, and the other simultaneously connects the supramembranous cavity with the submembrane and the atmosphere. Z. The drip hydraulic feeder according to claims 1 and 2, which differs in that the entrance of the second channel of the special nipple is located in the upper part of the additional container. that 2 s (ee) (o) (ee) s - with . and? ime) (ee) se) (ee) Ko) c 60 b5