RU3523U1 - DEVICE FOR AUTOMATIC DOSED PLANT WATERING - Google Patents

Abstract

A device for automatic dosed watering of plants, including a rotary dosing tank of single watering, communicated through a fluid flow regulator with a source of feed liquid and mounted on horizontal axes, characterized in that it has a rotary dosing tank of single watering made of plastic in the form of a vessel with a narrowed outlet connected by means of a flexible conduit to the irrigation pipe is provided with a hole for communication with the atmosphere and communication with a flexible conduit to the outlet ohm of the fluid flow regulator and is enclosed in a holder on which horizontal axes are mounted, located above the center of gravity of the empty rotary tank together with the holder and the bulk and drain water conduits and symmetrically offset relative to the vertical axis of the rotary tank.

Description

DEVICE OF AUTOMATIC REINFORCED PLANT IRRIGATION

The invention relates to the field of automatic irrigation devices for gardens, fields, etc., and, in particular, to devices for automatic dosed watering of plants. It is intended primarily for widespread use in gardening, horticulture and floriculture.

A device for automatic metered watering of plants is known, including a metering capacity of a single watering, communicated through a fluid flow regulator with a source of supply fluid / a.s. USSR JH6I8349, MIK A 01 G 27/00, I99I /. The disadvantages of this device are the complexity and cumbersome design, as well as the ease of operation.

The closest in combination of features and technical nature to the proposed device is a device for automatic dosed watering of plants, including a rotary dosing tank of single irrigation, communicated through a fluid flow regulator with a source of feed fluid and mounted on horizontal axes / a.s. USSR j siI62386, IPC A 01 G 27/00, 1985 /.

However, this device is also complex and cumbersome to design and difficult to operate, expensive to manufacture due to the need to produce special components and expensive and inconvenient to operate due to the constant need of the device for electricity. In addition, known devices necessarily include a reservoir with a supply fluid.

The present invention is aimed at solving the following problem: simplification, facilitation and cheapening of the design of the device, as well as improving its operational properties.

The technical result achieved by the implementation of the present invention is as follows: the simplicity, lightness and low cost of manufacturing the device are due to the use of the entire capacity and due to the possibility of using very cheap and durable standard plastic containers such as bottles or canisters as this capacity. The device is easy and simple to assemble, configure and start up for use by the user himself, it can be connected both to the water supply network and to the tank. In addition, a very simple adjustment of the watering period and dose of a single watering is achieved without the use of special units. The first is ensured by selecting the rate of fluid supply to the rotary dosing tank according to the time of filling the I / IO part of its volume. The second - due to the displacement of the tank in the casing and fixing it in marked with special signs on the surface of the tank polo /.

MF A 01 G 27/00

lives.

This result is achieved due to the fact that the E device for automatic metered watering of plants, including a rotary metering tank; single-watering communicated through a fluid flow regulator with a supply of liquid supply mounted on horizontal axes, the rotary metering tank of a single watering is made of plastic in the form of a vessel with narrowed outlet connected via a flexible conduit with irrigation pipe, equipped with a hole for communication with the atmosphere and communication with and flexible vodovodayu output fluid flow controller and zshslyuchena in the holder on which the fixed horizontal axes located leaching the center of gravity of the empty tank together with the rotary ring and the liquid and sli1nym vodovodalsh and symmetrically offset relative to the vertical axis of the rotary container.

The invention will be clear from the following description and the accompanying drawings, in which Fig. I shows a general view of the device in a position corresponding to filling a rotary metering tank, and Fig. 2 shows a general view of the device in a position corresponding to watering. The drawings / Fig. 1 and Fig. 2 / show: I - a rotary dispensing container of a single irrigation, 2 - a regulator of fluid flow, 3 - a source of supply fluid, 4 - horizontal axes, 5 - a clip, 6 - an outlet of a rotary dispensing container, 7 - drain water pipe, 8 - irrigation pipe, 9 - inlet of the rotary metering tank, 10 - bulk water pipe, II - load-bearing racks, 12 - base, 13 - guide support for the drain water pipe.

The device comprises a rotary metering tank I of a single irrigation, communicated through a fluid flow regulator 2 with a source of feed liquid 3, having a narrowed outlet 6 connected by a flexible drain pipe 7 to an irrigation pipe 8, and an inlet 9 communicating the inner cavity of the rotary metering tank I with the atmosphere And connected with the help of a bulk flexible water conduit 10 with the output of the fluid flow regulator 2. The rotary metering tank I is enclosed in a yoke 5 on which horizontal axes 4 are mounted, located above the center of gravity of the empty rotary metering tank I together with the yoke 5, the drain and bulk water tank 7 and 8 and symmetrically offset relative to the vertical axis of the rotary metering tank I. Horizontal axes 4 are inserted with the possibility of free rotation into the corresponding grooves of the supporting posts II, fixed on the base 12. On the posts II, a guide support 13 for the drain conduit 7 is fixed.

The rotary dispensing container I of single watering can have various shapes and sizes, but the shapes and sizes of standard plastic bottles and cans are optimal. The source of the supply fluid for the device can be either a water supply network or a periodically filled reservoir. The fluid flow regulator 2 in its simplest version is a screwable thrust rod providing adjustable clamping of a flexible flexible water conduit 10, in a more complex version a miniature valve. The fluid flow regulator 2 is mounted at the end of one of the load-bearing posts II, which ensures that the length of the bulk water conduit 10 and its bends are minimized when the tank I is rotated without any significant stresses and deformations. The base 12, the supporting struts II and the guide bearing 13 can be a collapsible or integral structure and can be made of both metals and plastics. Irrigation pipelines can be made of any form-containing material. Depending on the type of watering plants and silt. ijaL.niHiiiaiHHi / ia and their location on the soil at the top of the pipelines in the appropriate places make the outlet holes with a diameter of 1.0g2.0mm with a slight shift of the holes from the top of the pipe alternately in one and the other direction.

A device for automatic metered watering of plants works as follows.

In the initial state, the rotary dosing tank I has a stable vertical position with the outlet upward. The required dose of single watering is established by fixing the clip 5 on the rotary container I in the position indicated by the corresponding sign on the surface of the rotary container I. For example, in the case of a standard plastic bottle with a capacity of 2.0 liters, it is possible to change the dose of a single watering in the range from 1.0 liter to 2.0 liters of uggrua with an accuracy of 3. The required watering period is selected by changing the flow rate regulator 2 to the feed rate of the supply liquid to the rotary dosing tank I and measuring the filling time of each subsequent I / IO part and the volume of the rotary tank I. For example, so that the watering period is 30 minutes, it is necessary to fill the I / IO part of the tank in just 3 minutes. Due to this, the process of setting up the device for a given period of watering does not take longer than the duration of one / usually the first after the start of work / full filling of the rotary tank I.

In the filling mode of the rotary dosing tank I, the swaying fluid comes at a predetermined speed from the source 3 by means of, for example, as shown in the drawings, a siphon to the device through the fluid flow regulator 2 and a flexible flexible water line 10. As the filling is completed, the rotary

capacity I first takes a strictly vertical position, then begins to gradually deviate from the vertical to the side opposite to the offset of the horizontal axes 4 from the vertical axis of the rotary capacity I and overturns when the specified degree of filling is reached. Due to the communication with the atmosphere of the inner cavity of the rotary tank I and the irrigation pipe 8, the fluid from the rotary tank I freely and intensively flows into the bulk pipe 8, from which it flows under pressure through the outlet openings in the pipe 8 to the soil. If the pipeline 8 lies horizontally on the soil, after the first watering it will always be filled with liquid, and therefore watering will begin and end almost simultaneously along the entire length of the pipeline. Thanks to the guide support 13, the drain conduit 7 is located during irrigation with a slope downward along the entire length, which ensures its complete release from the liquid after emptying the rotary tank I. EkK only the rotary tank I and the drain conduit 7 are empty, the rotary tank returns to the vertical position. After this, a slow filling of the rotary tank I from the source 3 occurs again, it overturns when it is filled to a predetermined level and the next watering of plants.

Thus, the proposed design of a device for automatic dosed watering of plants provides automatic watering with a user-defined watering period and a dose of a single watering without any additional energy sources, except for the potential energy of the supply fluid, with maximum simplicity, ease and low cost of manufacturing and operation of the device. Tests of a series of prototypes conducted by the applicants in real conditions over the past season have confirmed the high efficiency and reliability of the proposed device, as well as the lightness, portability and ease of use of the device.

Claims (1)

A device for automatic dosed watering of plants, including a rotary dosing tank of single watering, communicated through a fluid flow regulator with a source of feed liquid and mounted on horizontal axes, characterized in that it has a rotary dosing tank of single watering made of plastic in the form of a vessel with a narrowed outlet connected by means of a flexible conduit to the irrigation pipe is provided with a hole for communication with the atmosphere and communication with a flexible conduit to the outlet ohm of the fluid flow regulator and is enclosed in a holder on which horizontal axes are mounted, located above the center of gravity of the empty rotary tank together with the holder and the bulk and drain water conduits and symmetrically offset relative to the vertical axis of the rotary tank.