FI61387B - FOERFARANDE FOER AUTOMATISK REGLERING AV EN TILL EN VATTENLEDNING ANSLUTEN BEVATTNINGSANORDNING OCH ANORDNING FOER FOERFARANDETS GENOMFOERANDE - Google Patents

Abstract

A main valve (1) is connected into a pressurized water pipe for an irrigation installation and has a valve body (4) formed as a differential piston and with a through bore (5), said body being operated in both directions by means of the water pressure, the piston (4) in one end position closing the water pipe and in its other end position keeping it open. The piston (4) is guided to said end positions by means of a control valve (7) arranged to open or close a duct (6) starting from the major cylinder bore, thereby to cause the water present to actuate the piston (4). The control valve (7) is in turn controlled by rainfall onto, and evaporation from an upwardly open bowl (8), and a drop means (9) active during irrigation. The bowl (8) is part of a tipping means with two tipped end positions, controlled by the quantity of water in the bowl (8). To achieve operation of the main valve (1) such that irrigation substantially takes place at night, and that the length of time between irrigation can be varied, the tipping means is supplemented by a closed air chamber (15) on the other side of the pivoting shaft (35), said chamber and bowl (8) having a common flat bottom (16) and mutual communication via a slit (17) at the bottom. By the volume change in the air enclosed in the air chamber (15), caused by the temperature difference between night and day, the quantity of water contained in the open bowl (8) and in the chamber (15) is displaced at night such that the tipping means tips over into a position opening the main valve (1).

Description

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Prtwttl-la rakittcrihallitu · (44) Date of publication. -,

Pltint · och rafisterttyralMn '' AnaOkM utilfd edi ud-skriften publlcerad 30.0U.Ö2 (32) (33) (31) etuoikeus — Begirt priorttet 23.10.78

Sweden-Sweden (SE) 781100U-6 (71) (72) Einar Skappel, Kvartärvägen 12, 595 00 Mjölby, Sweden-Sweden (SE) (7 * 0 Oy Jalo Ant-Vuorinen Ab (5I +) Method for automatic adjustment of an irrigation system connected to a water main as well as a device for performing the method - Förfarande för automatisk regiering av en account en vattenledning ansluten bevattningsanordning och anordning förfarandets genomförande

It is known from Swedish patent publication 353-210 to provide an irrigation device connected to a water supply with an automatic control device by means of which the irrigation is switched on for adjustable periods which are dehydrated; | the lengths of which depend on the relative humidity of the ambient air.

The known device comprises a main valve with a step-piston-type valve member provided with a narrow central passage leading to the larger side, a duct leading from the outlet to the control valve, which is adapted to close and open the duct. from the drip device controlled by the control valve and, when the amount of water supplied reaches a certain limit value, swing over and then project the control valve so that it closes the main valve and the water supply to the drip device and keeps them closed until so much water has evaporated from the vessel; the protrusion releases the control valve so that it again opens the main valve and the water supply to the drip device.

It has proved desirable to arrange the matter so that irrigation takes place mainly at night and that the length of the anhydrous periods also becomes dependent on rain.

The present invention relates to a method which satisfies the above requirements and to an apparatus for carrying out the method.

The implementation of the invention and its features appear from the appended claims.

The invention is illustrated in the accompanying drawing, in which:

Fig. 1 shows a longitudinal section of a device structure according to the invention in the irrigation position;

Fig. 2 shows a detail of the structure according to Fig. 1 in the closed position;

Fig. 3 is a section along the line III-III in Fig. 1; and

Fig. K is a section along the line IV-IV in Fig. 2.

The shell 11 surrounding the device consists of two pushed-together parts and has a substantially flat base 21 with a perforation 22 and a roof 33 provided with a rainwater collecting recess 12 having a substantially flat bottom with a perforation 13 ·

The base 21 supports a main valve 1 comprising an inlet 2 projecting from the housing 11, which is adapted to be connected to a water pipe, and a flow opening 3, which is adapted to be connected to an irrigation device (not shown). The main valve 1 comprises a step-piston type valve member with a thin central lead-through 5 leading from the side, from which the channel 6 passes to a substantially vertical control valve 7 provided with a vertical arm 25 supporting a float 26 attached thereto. with an overflow 28 and a side opening 29. The wall of the container 27 widens upwards. The lid 30 provided with a central opening for the arm 25 has a downwardly directed rim 32 suitable for rotation into the container 27, with a narrow trough 31 aligned with the side opening 29 of the container 27. The width of the trough 31 corresponds mainly to the width of the side opening 29. Together, they form a bushing for a drip device 9 formed as a spout, the bushing area of which can be adjusted by turning the lid 30 in a container 27 ·

The housing has a lever device comprising two containers 8, 14 arranged on different sides of the oscillation shaft 35 and having a common flat base 16. One of these containers 8 is open upwards and is located below the roof recess 12 of the housing and below the drip device 9. The second vessel 1 * + supports an enclosed air space 15, from the roof of which an arm-shaped projection 10 extends over the arm 25. The air space 15 communicates with the vessel 8 by a narrow transverse slot 17 located near the common base 16 and by a channel 18 leading to the opposite end of the open vessel 8 with a narrow longitudinal gap 20 in the vicinity of the base 16. The cross-section of the duct 18 can be arbitrary and the only important point is that its ceiling height continuously increases so that at the rear end of the open vessel 8 is slightly larger than the width of the gap 20 and reaches its maximum when opening into the air space 15, the mouth height is determined by its water content. according to the desired airspace 15 and its air volume The height of the mouth opening shall be slightly greater than the sum of the maximum difference between the widths of the slots 17, 20 and the day and night heights of the water in the air space 15.

A stepped body 23 is placed on the bottom 21 of the shell 11, below the end of the air space, so that it can be moved towards the lever shaft 35.

The device works as follows: Starting from the situation where the container 8 is full of water, the lever device has swung in this direction. The protrusion (arm) 10 contacts the arm 25 so that it presses the control valve 7 sealingly against its seat. In this case, the pressure acting against the larger side 36 of the step piston k will be equal to the water line pressure, whereby the main valve 1 shuts off the water supply to the irrigation device. The water in the float chamber 27 has dripped from the drip device 9 into the open container 8 so that the float chamber 27 is empty and the weight of the float 26 cooperates with the arm 10 to keep the control valve 7 in the closed position.

When the rainless period now begins, the water in the open vessel 8 evaporates and escapes as steam through the perforation 13. In this case, the compressive effect of the arm 10 against the arm 25 is reduced, while the water enclosed in the air chamber 15 remains essentially unchanged. When the open vessel 8 has a certain water level, the water pressure acting on the control valve 7 comes through the passage 5 and the channel 6 of the step piston 4 to press against the control valve 7 so that it opens slightly and allows water to flow into the groove chamber 27. The float 26 presses the arm 25 up against the arm 10 that swings the lever device toward the air chamber side. Since the float chamber 27 is now filled up to the overflow 28, water flows out through the trough 31 and the side opening 29 into the drip device 9, from where it drops into the open container 8 at a speed which can be adjusted by turning the lid 30. When the weight of the water in the open container 8 has risen to a certain value, it causes the lever device to swing back to its initial position, whereby through the arm 10 it presses the control valve 7 and the main valve 1 to the closed position. The water in the float chamber 27 drips down into an open container so that the float

Claims (6)

4 61387 26 cooperates with the arm 10 to keep the valves 7 and 1 in the closed position, after which the above-mentioned operating cycle starts again. The temperature of the air in the air chamber 15 of course changes according to the environment, in which case its volume also changes. This results in some of the water in the bottom vessel of the air chamber 15 being squeezed out into the open vessel 8 through the transverse slot 17 during the day, which water is absorbed back during the night. This in turn results in the lever device being in the open position during irrigation times, i. oscillating towards the air chamber during the night and in the closed position during the day. Thus, irrigation always takes place at night, which is the best for vegetation and what is the main purpose of the air chamber 15. In the event that the gap 17 is the only connection between the air chamber 15 and the open vessel 8, it would be difficult to obtain a sufficient amount of water in the air chamber 15 to provide clear and secure changes from the closing (daytime) opening (nighttime) position. These problems have been overcome by means of a duct 18 which allows such a large amount of water to be obtained in the air chamber 15 that its surface coincides with the upper part of the mouth of the duct when the lever device oscillates maximally towards the air chamber side. In order to adjust the maximum oscillation of the lever device towards the side on the air chamber side, which determines the length of the irrigation periods, the body 23 can be moved so that its steps Zb form responses adjusting the oscillation angle. A method for automatically adjusting an irrigation device connected to a water line, comprising controlling a main valve (1) having a step-piston type valve member (b) by means of a control valve (7) so as to move it between an open and a closed position by means of a water line pressure, while the control valve (7) is in turn controlled by a lever device (8, 1 * 0) which in its second oscillating position causes the control valve (b) to close the main valve (1) and in its second oscillating position releases the control valve (b) so that it can move the main valve (1) to the opening position, the sweeping position of the lever device (8, 'ib) being determined by the water surface in the open vessel (8), to which water is fed dropwise at an adjustable speed from the drip device (9) as long as the control valve (^) is in the open position, the dripping stops when the rise of the water level in the vessel (8) causes the lever device (8, 1 * 0 to oscillate in the vessel (8) laterally and then closes the control valve (7), after which it loses water due to evaporation until the reduced water level causes the lever device (8, 1 * 0 to swing back to the opposite, open position of the control valve (7), characterized in that the day and the air pressure controlled by the night temperature difference, which air is enclosed in the air chamber (15) on the opposite side of the lever device (8, 1 * 0), puts the water chamber (15) at the bottom formed by the vessel 1 * 0 and the open vessel (8 ) through the gap (17) in the wall (19) to squeeze out into the open container (8) during the day and to absorb into the bottom at night (1 * 0. Apparatus for carrying out the method according to claim 1, comprising a main valve (1) having an inlet side (2) and an outlet side (3) and a piston-type valve member (* 0 provided with a narrow central lead-through (5) leading to the larger side 1 therefrom with a duct (6) leading to the valve (7), which valve is adapted to close and open the duct (6) to close and open the main valve (1), by a lever device with an open vessel (8) to which water is arranged to supply water from the drip device controlled by the control valve (7) (9) and, when the amount of water supplied reaches a certain limit value, swing over And then the projection (10) acts on the control valve (7) so that it closes the main valve (1) and the water supply to the drip device (9) and keeps them closed until so much water has evaporated from the vessel (8) so that the lever device swings back, whereby the projection (10) releases the control valve (7) so that this again a of the main valve (2) and the water supply to the drip device (9), characterized in that the lever device, the control valve (7) and the main valve (1) are enclosed inside a housing (11) with a perforated base (21) which ) above the open container (8) is provided with a torn (13) recess (12), that the lever device together with the container (8) is provided with a space (1 * 0) which forms a closed air chamber (15) extending upwards of the open container (8). ) over the top and having a flat base (16) common to the container (8), and connected to the open container (8) by a narrow slot (17) at the base (16) extending over most of the width of the container (8). Device according to claim 2, characterized in that the air chamber (15) also communicates with the open vessel (8) through at least one channel (18) extending from an opening in the wall (19) on the open vessel (8) side of the air chamber O5). (8) at the opposite end and is provided with a narrow slot (20) extending along its entire length in the vicinity of the bottom of the container (8). Device according to Claim 2 or 3, characterized in that the stepped body (23) is adapted to be moved perpendicularly against the circumferential end of the air chamber (Ί5) so that its steps (2 ^) act as responses limiting and selecting the oscillation movement of the lever. for the device. Device according to claim 2, characterized in that the control valve (7) has a straight upwardly directed arm (25) around which a float (26) is attached and against which the projection (10) of the arm (25) is arranged to rest and hold the control valve. (7) closed as long as the open container (8) is filled with water. Device according to claim 5, characterized in that the float (26) is surrounded by an upwardly open, circular and upwardly expanding vessel (27) with an overflow (28) and a side opening (29) at the drip device (9), which vessel (27) ) is covered by a lid (30) having a central opening for the arm (25) and a downwardly directed rim (32) suitable for the container (27), with a narrow trough (31) at the side opening (29), which trough (31) is mainly as wide as the side opening (29) and that the float (26) is dimensioned so that when the container (27) is filled with water up to the overflow (28), it pushes the arm (25) upwards with considerable force. claim;