This invention relates to sprinklers and more specifically to so-called pop-up or riser sprinklers where the irrigation head assembly is spontaneously displaceable responsive to water pressure, between a retracted opposition, namely a non-active position, and an extracted position, namely an active position.
A wide variety of pop-up sprinklers are known where a housing is typically berried under ground surface where the sprinkler is concealed for both aesthetic reasons and for practical ones, e.g. to facilitate easy lawn mooring, to prevent the sprinkler from being an obstacle to pedestrians, etc. In some cases a pop-up sprinkler is intended for increasing the irrigation range or for over coming obstacles such as a bush, a decorative stone, a fence, etc. These objects are however achieved by a substantially large housing with a corresponding long pop-up stem member, requiring suitable sealing means.
A different type of pop-up sprinklers is of the kind comprising a membrane deformable between a retracted position and an elevated position, responsive to water supply pressure. Such sprinklers are described, for example, in U.S. Pat. No. 3,282,508 to Bailey and U.S. Pat. No. 4,919,332 to Roberts.
It is an object of the present invention to provide a pop-up sprinkler fitted with an improved raising mechanism which one the one hand is inexpensive and easy to assemble and, on the other hand, offers many advantages such as compact structure, smooth and trouble-free operation, insect and dirt protection, inverted installation (‘top down’), etc. Furthermore, the sprinkler according to the present invention offers many diversities for various purposes. For example, the sprinkler may be integrally fitted with a flow control assembly and a leak preventing device, with an in-line filter, etc.
According to the present invention there is provided a sprinkler comprising a housing fitted with an inlet port connectable to a water supply line and extending into an inlet chamber, a hollow stem member having with an inlet end thereof being in flow communication with said inlet chamber and an outlet end thereof being in flow communication with an irrigation head; a diaphragm seal sealingly fixed at peripheral boundaries thereof to the housing and sealingly articulated to the stem member and supporting it at an essentially upright position; said diaphragm being deformable between a first position in which the irrigation head is retracted within the housing and a second position in which the irrigation head projects from the housing.
The sprinkler displaces into its open, extended position by hydraulic forces, i.e. hydrostatic force rather than reactionary forces of water impinging against a surface of the irrigation head.
According to some embodiments of the invention, the diaphragm seal is beveled, however according to other embodiments the diaphragm seal may have other shapes. e.g. a flat disk, a conical disc, a gradually beveled disc, etc. However, where the diaphragm seal has a non-flat section (e.g. beveled/conical section—collectively referred to hereinafter as a beveled diaphragm seal), it offers some advantages.
A beveled diaphragm seal toggles into its respective first and second positions and according to a particular feature of the sprinkler of the present invention, the beveled diaphragm seal is substantially un-tensed at either of its two respective beveled positions. According to one specific arrangement, at its second beveled position the beveled diaphragm seal bears against a supporting surface where the beveled diaphragm seal bears against the inclined surface and under water pressure provides hydraulic seal.
When the diaphragm seal is beveled, it may be used to generate an axial force giving rise to a biasing effect e.g. for sealing a leek preventing device (LPD) fitable at an inlet of the sprinkler, whereby a spring may be used or eliminated.
According to modifications of the invention, rather then a beveled diaphragm there may be provided a rolling type membrane or a peel away type diaphragm.
Furthermore, axial displacement of the stem member is restricted, thereby restricting stress of the beveled diaphragm seal. Axial displacement restriction is obtained, for example, by a projecting shoulder of the stem member engageable with a corresponding bearing surface of the housing.
Furthermore, the housing is formed with a radial support to facilitate only axial (sliding) displacement of the stem member, thereby preventing rotary displacement and reducing generation of forces to the diaphragm seal.
According to the present invention, the sprinkler further comprises a cover member articulated to one of the stem member and the irrigation head, whereby the shielding portion is closable by said cover member at the first position. By one embodiment, the shielding portion is formed with one or more drain ports and still, the one or more drain ports are sealable at the first position. The arrangement according to one embodiment is such that at the second position a portion of the stem or of an articulated bridge portion displaces into sealing engagement with the one or more drain ports.
The sprinkler according to the present invention is formed, according to one of its embodiments, with a radial support to facilitate only axial displacement of the stem member. Such a radial support may be in the form of an annular neck portion or support ribs or segments, integrally formed with the housing or fixed thereto, slidingly supporting the stem member.
According to another embodiment of the present invention the inlet chamber is fitted with a flow control assembly comprising a flexible membrane retained within the inlet chamber which responsive to pressure differential thereover is deformable to constrict the cross section area of a liquid flow path into the inlet end of the stem member.
The arrangement according to a particular application is such that at the first beveled position the flexible membrane bears against the inlet port, thus serving as a leak preventing device, ensuring the inlet port is sealed until water pressure at the inlet port reaches a minimal nominal pressure.
The sprinkler according to the present invention also offers a positively sealed sprinkler, at all positions thereof, a sealing of draining ports at the closed, retracted position of the sprinkler and drainage of said draining ports at the open, extracted position of the sprinkler.
In order to understand the invention and to see how it may be carried out in practice, some embodiments will now be described, by way of non-limiting examples only, with reference to the accompanying drawings, in which:
Attention is first directed to
The beveled diaphragm seal 34 is formed with a central aperture 38 wherein the inner peripheral boundaries 40 are annularly arrested within an annular groove 42 of a hollow stem member generally designated 44, supporting the latter in an essentially upright position such that an inlet end thereof 46 extends below the beveled diaphragm seal 34 and an outlet end thereof 48 extends above the beveled diaphragm seal 34, as can be seen in
The annular groove 42 is formed between a first annular shoulder 50 and a second annular shoulder 52 with a coiled spring 56 having one end thereof bearing against annular support 52 with an opposed end thereof bearing against an opposite annular portion 58 of the housing 22, thus biasing the beveled diaphragm seal 34 and the associated stem 44 into a downward, retracted position as in
A bridge member 62 is screw coupled or otherwise articulated to the stem member 44 (e.g. by snap fitting etc.), said bridge 62 having a top cover portion 64 sized and shaped to close a top opening 66 of housing 22. The bridge member 62 is fitted with a locking piece 68 engagable by means of arresting ribs 70A and 70B projecting from the bridge member 62 and the locking piece 68, respectively. A reactionary rotatable irrigation head 80 comprises an inlet portion 82 is rotatably received within a receptacle at the outlet end 48 of the stem member 44 and the head is formed with an axially projecting boss 86 rotatably supported within an opening 88 formed in the support piece 68, the arrangement being such that the irrigation head 80 is rotatably supported with little friction whereby it freely rotates owing to reactionary forces developing upon water flow about a reactionary surface 92 (
The beveled diaphragm seal 34 (
Furthermore, as seen in
It is further noted that at the second position, the axial displacement of the stem member 44 is restricted by the annular projecting shoulder 52 encountering a corresponding shoulder 53 of the housing 22 to thereby prevent tensioning or stressing of the beveled diaphragm seal 34.
Although not illustrated in the drawings, it is appreciated that the suitable rotary dampeners may be used, e.g. a viscose dampener (of the type comprising a viscous substance such as silicone), etc. For example, such a dampener may be incorporated in the locking piece 68.
With particular reference to
As can further be seen in the figures, the housing 22 is formed with a shielding portion 98 which accommodates the irrigation head and which at the retracted position (
As can further be seen, the cap 24 is fitted with an extension piece 110 is accommodating an integral filter 112 retained in place by a connecting piece 114 suited for pressure fit to a water supply tube (not shown). The cap member 24 is further formed with a support 116 for mounting on a post (not shown) at any desired position either suspending from above at an inverted position (the bridge member 62 facing downwards) or at an upright position as in the figures.
Sprinkler 20 further comprises a flow control assembly generally designated at 120 comprising a flexible disc-like membrane 122 retained within the inlet chamber 30 by retention leg members 126 (rotary motion being restricted by radial projection 127 extending from housing 24) with an inlet passage 130 formed between the legs 126 to ensure flow communication about both faces of the membrane 132. Legs 126 further prevent rotary displacement between the stem member 44 and the cap 24.
A particular application of the invention is illustrated in
In use, the sprinkler is normally at its closed position as in
Upon ceasing the water supply through inlet port 26 the pressure within the inlet chamber 30 decreases and under influence of the coiled spring 56 the beveled diaphragm seal 34 toggles back into its first position (
The flow control assembly 120 acts as a differential pressure assembly wherein the membrane 122 deforms responsive to pressure differential between its inlet face and its outlet face to thereby vary the through flow into the inlet end 46 of the stem member 44, thereby restricting water flow therethrough.
The sprinkler disclosed hereinabove is of simple construction and is easy to assemble and disassemble for maintenance. Furthermore, an outlet nozzle of different nominal outlet flow may be fitted at an outlet end 48 of the stem member 44. For example, each nozzle may be of a different color corresponding with its nominal through-flow. The replaceable nozzles may have a nominal outlet flow of say between 25 to 200 liters/hour.
It is further appreciated that the beveled diaphragm seal 34 divides the housing into a pressurized zone at a side thereof facing the inlet port, and an essentially atmospheric pressure zone at its other side.
In
It is also noted in
Diaphragm 122 of the flow control assembly 120 serves also as a leak preventing device (LPD) i.e. before build up of a minimal pressure, the diaphragm 122 bears against the nozzle end 131 of inlet port 26 (see
The drain ports 100 are formed at a lower portion of the cone-like shielding portion 98, ensuring drainage of water therefrom.
Turning now to
Other arrangements are possible to, such as, for example, applying a rotation dampener (not shown) such as a silicone dampener fitted at either the bridge member or the irrigation head, as known per se.
In accordance with some other embodiments of the invention an outlet nozzle of the sprinkler may be fitted at different locations and at different combinations. A first example is illustrated in
A second embodiment is illustrated in
According to the embodiment of
The irrigation head, as seen in the various embodiments of the present invention, is formed as part of the cover of the housing (integral therewith, or assembled thereto). Further, the irrigation head substantially does not axially displace with respect to the stem member and the cover, thereby retaining stability and bearing features.
It is appreciated that the bridge member may be articulated to the stem member in other versions, e.g. bayonet coupling, snap-type connection, etc. Furthermore, it is this arrangement that makes it possible to provide bridge members each fitted with a nozzle having a different nominal flow rate, distinguishable from one another, e.g. by different colors of the bridge member.
A third example is illustrated with reference to
It is preferable, however, that the flow rate of the outlet nozzles should correspond with the nominal performance of the flow control assembly and accordingly, it would be advantageous that there be provided indication means for such correspondence, e.g. matching colors or colored portions of the bridge and the housing, dedicated connections e.g. bayonet connections suitable for only one type of outlet nozzles, etc.
Further attention is now directed to
An extension stem member 200 has a cylindrical portion 202 receivable within the outlet end 192 of stem member 88 and formed with an annular groove 204 snapingly engagable by projections 194.
Rotatably mounted on the extension stem member 200 there is a swivel 210, in the form of a rotary bushing, freely rotatable about a cylindrical outlet end 214 of the extension stem member and snapingly retained thereto by means of an inward radial projection 218 snapingly retained by a corresponding annular recess 220 formed on the extension stem member 200.
A reactionary rotatable sprinkler head 224 is formed with a disc-like cover 226 fitted for closing the shielding portion 228 of the housing 182 at the retracted position of the sprinkler (first beveled position) as seen in
At the retracted position (
The outlet end 214 and the sprinkler head 224 are axially fixed with respect to one another and may also be integrated with respect to one another.
The embodiment of
The stem member 270 has a short outlet stem portion 272 fitted adjacent its outlet end with inwardly projecting radial snap segments 276 for snap engagement within an annular groove 278 of an extension stem member 280 having a cylindrical portion 282 received within the stem portion 272. Snapingly mounted on an opposite end of the extension stem member 280 there is fitted a swivel 286 snapingly engagable about an annular groove 288 of the extension stem member 280.
The swivel 286 is fitted with two axial projecting legs 290 each formed at its free end with a laterally projecting lug 292 suited for snapingly engagement within corresponding apertures 294 formed in a reactionary rotatable sprinkler head 268.
The arrangement is such that once the reactionary rotatable sprinkler head 268 is mounted on the swivel 286 it prevents the swivel from unintended disengagement from the extension stem member 280 in that it embraces the legs 290 though allowing sufficient freedom for the swivel to rotate about the extension stem member.
It is noticed that the sprinkler head 268 has two rotational degrees of freedom, i.e. one imparted by the swivel 286 freely rotatable about the extension stem member 280 and the other imparted by extension stem member 280 rotatable within the stem member 270. It is further noticed that the snapping portions are typically non continuous thus being formed with grooves so as to dispose of dirt, sand grains, weeds, algae, etc.
A person versed in the art will appreciate that other aspects which have already been disclosed in connection with the first embodiment disclosed in
It is further noticed, although not mentioned in connection with the embodiments of
Furthermore, whilst not illustrated, it is appreciated that the sprinklers in accordance with the embodiments of
Further attention is now directed to the embodiment of
It is further noted that the diaphragm seal 310 in its first position (
Stem member 316 is supported within the housing 304 and is restricted to axial displacement only, by means of annular support 330 (which as already mentioned hereinabove may be in the form of radial fins, sectorial segments, etc). Furthermore, there is a coiled spring 333 biasing stem member 316 and the associated irrigation head 336 into the retracted/closed position (
Another application of the invention is illustrated in
In the present embodiment the diaphragm seal 386 is clamped at a first rimed portion 388 between a seat 390 of the housing 392 and a screw coupled base member 294. A rimmed portion 398 at an opposite end of the diaphragm seal 386 is secured to the stem member 400 and retained by a retention ring 404.
Other components of the sprier 380 are similar as those described in connection with sprinkler 300 of
In the position of
Whilst in the position of
Part for the above differences, operation of the sprinklers 300 and 380 illustrated in
It is appreciated that the above descriptions are intended only to serve as examples and that many other embodiments are possible, all of which fall within the spirit and the scope of the present invention. For example, the irrigation head may be static or rotational, there may be provided dampening means, etc. Furthermore, the sprinkler according to the present invention may be fitted for an upright position or an inverted position (‘top down’), where suitable suspension means may be provided.
Number | Date | Country | Kind |
---|---|---|---|
157246 | Aug 2003 | IL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/IL04/00673 | 7/22/2004 | WO | 00 | 2/6/2006 |