RU2579476C1 - Dripper - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: drip outlet conduit contains installed in hole of pipeline insert made from elastic material, having hole, belt, collar, insert is coated with protective shell, insert is through hole, bracket with spring-loaded valve with the possibility of turning in direction of water flow. Spring-loaded valve is made with additional valve located above through hole of insert. Additional valve is fixed on spring-loaded valve screw. Spring-loaded valve at end is made in cross section in form of open spiral, folded end part of which is located flush with wall of spring-loaded valve with formation of water intake slit, other end of spring-loaded valve with bracket can be adjusted.

EFFECT: high reliability.

4 cl, 1 dwg

Description

The invention relates to techniques for irrigation of crops using the drip method using flexible irrigation pipelines.

A water outlet of an irrigation pipeline is known, including a housing with a drain hole and a fastener connecting the housing to the pipeline, the housing is formed by two sidewalls connected by a vault consisting of a front horizontal part and a rear curvilinear part smoothly conjugated with it directed outwardly, while the housing outlet placed in it opposite the rear curvilinear part of the arch (Copyright Certificate SU No. 1501981, class A01G 25/02 of 08/23/1989).

The disadvantage of the described water outlet is limited functionality, the difficulty of installation and poor quality of watering, as well as the need for a special pipe with a thickening, requiring the use of appropriate equipment and equipment.

Known water outlet mounted on the outlet of the pipeline and comprising a seal and a gap-forming element, the seal is installed on the outer surface of the pipeline, and the gap-forming element is freely placed between the seal and the pipe in the area of the outlet (patent RU No. 2056734, class A01G 25/02 of 27.03. 1996).

The known water outlet is simple in design, but the disadvantage is that periodic manual cleaning and flushing of the channels is necessary. For this, it is necessary to sharply increase the flow of water to the discharge with forced depressurization of the hole, as well as the inconvenience of selecting the diameter of the gap-forming element for each water outlet along the length of the pipeline, since the pressure along the length of the pipeline is constantly changing, i.e. poor watering quality.

A well-known irrigation pipeline with drip outlets, including a locking element installed in the cavity of the pipeline and opening the entrance to the pipeline, has an annular insert in the internal cavity, and the locking element has a hemispherical shape, the annular insert and head are connected by an elastic holder, made along the circular arc with convexity to the side the axis of the pipeline, the annular insert is fixed relative to the water outlet according to the length of the elastic holder, the water outlet and the head along the spherical shape is made coaxially (patent RU No. 2225799, class A01G 25/02 of 06/10/2008).

For this device, it is necessary to manufacture a special annular insert with its fastening so as to fix precisely the locking element and its head relative to the water outlet with a corresponding bend. At the same time, this determines the great complexity and inconvenience of service. Another disadvantage is the rapid aging of the closure, the elasticity is lost, and the shape of the bend with the head is lost, which causes subsequent leakage of water through the outlet from the planned discharge rate, and frequent replacement of the closure is necessary, which is difficult due to its placement inside the pipeline.

Also known is a valve for a water outlet of an irrigation pipeline, including openings in the wall of the pipeline and water outlets in them, wherein each water outlet is made in the form of a movable spring-loaded valve consisting of a head having a ball segment in the upper part conjugated by a conical locking part with guide ribs having restrictive protrusions while the valve body, mounted between the guide ribs, has a conical shape (patent RU No. 2295233, CL A01G 25/02 from 03/20/2007).

The flow of fluid through the conical bore of the water outlet is limited by the free movement of the ball segment and determines their clogging with floating fine debris, which can jam the valve between the walls of the pipeline. At the same time, the water outlet valve contains parts, for example, a pressure device by a valve lever, and is connected to a clamp on the outer surface. However, the elasticity and durability of the preload spring are also unreliable, in particular, from the frequent creation of efforts to change its position from the changing water pressure in the pipeline and regulating the flow rate of the water outlet. Spring fatigue occurs, which leads to its breakdown, since the moments of forces acting on the curved lever change at an angle relative to the point of application of water pressure on the surface of the spherical segment, i.e. shortens the life of the device. Another drawback is the large friction between the walls of the pipeline and the valve, and this slows down or upward movement of the valve.

The closest technical solution to the claimed object is a drip outlet, including an insert made of elastic material installed in the hole of the pipeline, having an opening, the insert in the middle part is secured with a belt, and with an inner shoulder, behind which there is a bracket with a spring-loaded valve mounted on it with the possibility of rotation in the direction of movement of the water flow, while the insert is covered with a protective shell, and the hole of the elastic insert is made through (patent RU No. 2283582, class A01G 25/02 of 04/13/2005).

The disadvantage of this drip outlet is the low operational reliability associated with spring fatigue and insufficient dynamic pressure on the spring-loaded valve from the water in the pipeline, especially in cases where the water pressure at low flow rates is not enough to overcome the tensile spring elasticity, one end of which is fixed with a bracket on the bracket. In addition, the flat shape of the valve cannot eliminate water leakage when there is insufficient water pressure from above on the valve through the outlet openings of the elastic insert, there may be cases of crushing of its ends, which means that there are gaps through which water seeps out, i.e. water leaks to the discharge along the length of the irrigation pipeline, the accuracy of water intake decreases. If the water flow in the cavity varies along the length of the pipeline, then the pressure above each outlet with a flat spring-loaded valve also changes, the process of closing the insert hole slows down in time, as a result, the static error in measuring the water flow also increases, as confirmed by the application materials, t. e. from the speed of the flow in the pipeline and the effective pressure. The closing of the hole in the insert by the valve becomes unstable, a self-oscillating process occurs, which also occurs from tension or compression of the spring; wave phenomena occur in the pipeline that do not extinguish the flow before the outlet.

The problem to which the invention is directed is to increase operational reliability in operation and ensure uniformity of water intake.

EFFECT: automatic adjustment of water flow through water outlets along the entire length of the pipeline, simplification of valve design.

The specified technical result is achieved in that in a known drip outlet including an insert of elastic material installed in the hole, having an opening, a belt, a shoulder, an arm with a spring-loaded valve mounted on it with the possibility of rotation in the direction of flow of the water, while the insert is covered with a protective the shell, and the hole of the elastic insert is made through, the spring-loaded valve is made with an additional valve placed towards the insert seat opposite the hole, a screw is fixed m, which is connected to a spring-loaded valve, the latter at the end being made in cross section in the form of an open spiral, the limb of the end of the spiral is flush with the wall of the spring-loaded valve to form a water intake gap, and the other end of the spring-loaded valve with an arm is adjustable.

In addition, the middle part of the spring-loaded valve is made with a longitudinal groove, with which a screw is fixed to move the additional valve along the spring-loaded valve relative to the insertion hole in the pipeline.

In addition, the bent end of the spring-loaded valve in the form of a spiral is located with the possibility of support on the inner surface of the pipe body located on the opposite side of the seat.

In addition, the bracket is fixed to the fork with the possibility of lifting it up, which is fixed to the screw-nut.

This design of a drip outlet with an additional valve reliably closes the insert seat, i.e. the valve can enter the insertion hole without vibration of the spring-loaded valve. Since the level above the spring-loaded valve increases sharply, respectively, and at low water flow rates in the pipeline, it is possible to increase the pressure from above on the spring-loaded valve, which in turn eliminates the wave phenomena in front of the water outlet due to the bent end in the form of an open spiral with a culvert.

Thus, a certain amount of water flows downstream in the pipeline over a spring-loaded valve. The spiral prevents the ejection of flow back to the side above the wall of the spring-loaded valve, removing wave phenomena in the pipeline. This eliminates the inertia of the acceleration of the flow due to the ascent of the valve, which increases the reliability and speed in operation, which are absent in the known devices.

Thus, due to the possibility of a compact arrangement of the additional spiral valve and the bracket with a movable fork, the work occurs with greater operational reliability and uniformity of water supply through the drip outlets along the length of the pipeline.

The drip outlet design is simple and reliable for field conditions. As a result, the level of automation of this device is achieved in comparison with the known ones, and this increase is due to the connection of the valves between themselves, which are equipped with a bend in the form of an annular spiral with a culvert transverse slit as a whole. Thus, the efficiency of the device is ensured by improving the layout of the elements of the drip outlet on the flexible pipe.

The invention is illustrated in the drawing, which schematically shows a section along the axis of the pipeline with a drip outlet installed.

A drip outlet is installed on the main pipe 1 and includes a drain insert 2 with a saddle and with a through hole 3. The elastic insert 2 from the side of the protruding part above the surface of the pipe 1 and from above is covered with a protective sheath 4 that protects the elastic insert 2. from the insert 2 side of the flow of water, the forks 5 are fastened together with an bracket 6 and the pipe body 1 by means of an adjusting screw 7, a nut 8 with an o-ring 9. The bracket 6 is connected with a spring a spring valve 11 with a spring valve 11. The middle part of the spring-loaded valve 10 has a longitudinal longitudinal groove 12, the screw 13 is fixed with an additional valve 14, which is in contact with the groove 12 in the spring-loaded valve 10. In addition, the free end of the spring-loaded valve 10 is bent in the form of an open spiral 15 , the initial bend of the spiral is made flush with the wall of the spring-loaded valve 10 from above with the formation of a water intake gap, as well as with the possibility of bearing on the inner formations located on the opposite side of the saddle the surface of the pipe body 1. The additional valve 14 is fixed with a screw 13 in the groove 12 relative to the through hole 3 of the insert 2 inside the pressure pipe 1, while the valve 14 should be located strictly above the through hole 3 of the insert 2, mounted on the pipe 1. The angle of inclination of the spring-loaded valve 10 s additional valve 14 can also be changed using a fork 5, the base attached by a screw-nut 7-8 with the possibility of raising it up or lowering down with the seal 9. The spring 11 at one end freely moves n d bracket 16 on the valve 10, and the other under the bracket 17 on the bracket 6. In addition, the angle of inclination of the valves 10 and 14 is fixed not only by the spring 11, but significantly depends on the speed of rotation of the water inside the spiral 15, resulting in hydrostatic pressure from the side of the water flow there is a stable automatic closing by an additional valve 14 of the seat of the elastic insert 2 with a through hole 3. In the free state, the valves 10 and 14 are raised up, and the free bent end in the form of a spiral has the ability to rely on laid on the opposite side of the insert with a saddle forming the inner surface of the pipe body 1.

Drip outlet works as follows.

In the initial state, the valves 10 and 14 rise, rest on the inner surface of the pipe body 1.

When water is supplied through pipeline 1 in the direction of the arrow, the opening of the spring-loaded valves 10 and 14 depends mainly on the water pressure in the open spiral 15, respectively, and on the pressure in the pipeline 1. With an increase in the pressure head, the mass of liquid presses the spring-loaded valve for 10 s shut-off valve 14 (shut-off element), closes the seat of the insert 2, when the pressure decreases, the shut-off valve 14 opens. When water moves in the pipeline and depending on the acting pressure due to the action of the spiral 15. The valve 14, located at an angle to the horizontal axis of the pipeline, then tends to its horizontal position relative to the through hole in the insert 2, which automatically stabilizes and improves the stability of the valves 10 and 14. If there is a wave movement of water in the cavity along the length of the pipeline, then the described process will be more stable and the flow rate of water through the outlet will be more accurately stabilized, i.e. with less static error in measuring water flow. If a different pressure of water takes place in the pipeline cavity, then compensation occurs simultaneously from the compression of the spring 11 on the valve 10 when the flow is twisted at a different suitable speed in the spiral 15 with the formation of a water-receiving gap in it, which provides increased pressure on the rotary valves 10 and 14 for pressing the latter to the seat of the insert 2, and therefore, the distance between the seat of the insert 2 and the valve 14 changes, which reduces the flow rate through the outlet, and accordingly, its speed on the cover of the outlet. Thus, depending on the larger effective pressure in front of the bent end in the form of a spiral 15, the flow rate through the outlet of the insert 2 is automatically adjusted along the entire length of the pipeline 1, when the flow rate is gradually selected by the outlets, and the flow velocity in it decreases.

Thus, the water pressure and the squeezing force created by the spring 11 are balanced on the valves 10 and 14 from above. The auxiliary shut-off valve 14 can be moved in the guide groove 12 for the purpose of its adjustment and with fixing by a screw 13, which maintains its position exactly above the seat of the insert 2, thereby automatically saving the water discharge rate. The adjustment of the position of the valves 10 and 14 can also be performed by changing the height position of the plug 5 with an attached screw-nut 16 with a seal 17, i.e. with a screw-in screw-nut 16.

The installation of an additional valve 14 on the spring-loaded valve 10 and the presence of a spiral 15 makes it possible to ensure not only the buoyancy of the device, but also to improve their stability. In addition, it improves the conditions for maintenance of outlets along the length of the pipeline and extends the service life, as well as facilitates the operation of valves in the pressure stream.

Claims (4)

1. A drip outlet including an insert made of an elastic material installed in an opening, having an opening, a belt, a shoulder, an arm with a spring-loaded valve mounted on it with the possibility of its rotation in the direction of water flow movement, while the insert is covered with a protective shell, and the elastic insert has a hole end-to-end, characterized in that the spring-loaded valve is made with an additional valve placed towards the insert seat opposite the hole, fixed by a screw that is connected to the spring-loaded valve moreover, the latter at the end is made in cross section in the form of an open spiral, the limb of the end part of the spiral is flush with the wall of the spring-loaded valve with the formation of a water intake gap, and the other end of the spring-loaded valve with an arm is made adjustable. 2. A drip outlet according to claim 1, characterized in that the middle part of the spring-loaded valve is made with a longitudinal groove, with which a screw is fixed with the ability to move an additional valve along the spring-loaded valve relative to the insertion hole in the pipeline. 3. A drip outlet according to claim 1, characterized in that the bent end of the spring-loaded valve in the form of a spiral is positioned to abut against the generators of the inner surface of the pipeline body located on the opposite side of the saddle. 4. Drip outlet according to claim 1, characterized in that the bracket is fixed to the fork with the possibility of lifting it up, the fork is fixed to the screw-nut.

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