AU2007315708B2 - Insect protected pop-up sprinkler - Google Patents

Abstract

A sprinkler comprising a housing (22) fitted with an inlet port (26) connectable to a water supply line and extending into an inlet chamber (30), a hollow stem (44) member 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 (80), a diaphragm seal (32) sealingly fixed at peripheral boundaries thereof to the housing and sealingly articulated to the stem member and supporting it at an essentially upright position. The diaphragm is 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 comprising at least one guard portion (510) adapted to prevent insects and undesirable material from entering the sprinkler housing during said second position.

Description

- 1 INSECT PROTECTED POP-UP SPRINKLER s FIELD OF THE INVENTION 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 re tracted position, namely a non-active position, and an extracted position, 10 namely an active position. BACKGROUND OF THE INVENTION A wide variety of pop-up sprinklers are known where a hous ing is typically buried under ground surface where the sprinkler is con 15 cealed 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 increas ing 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 20 substantially large housing with a corresponding long pop-up stem mem ber, requiring suitable sealing means. A different type of pop-up sprinklers is of the kind compris ing a membrane deformable between a retracted position and an elevated position, responsive to water supply pressure. Such sprinklers are de 25 scribed, for example, in U.S. Patents 3,282,508 to Bailey and 4,919,332 to Roberts. It would be desirable to provide a pop-up sprinkler fitted with an improved raising mechanism which, on the one hand, is inexpensive and easy to assemble and, on the other hand, offers many advantages 30 such as compact structure, smooth and trouble-free operation, insect and dirt protection, inverted installation ('top down'), etc. Furthermore, the - sprinkler advantageously offers much diversity for various purposes. For 3251285_1 (GHMatters) P80883.AU 27/03/12 -2 example, the sprinkler may be integrally fitted with a flow control as sembly and a leak-preventing device, with an in-line filter, etc. SUMMARY OF THE INVENTION 5 According to an aspect there is provided an insect-free sprin kler, the sprinkler comprising a housing fitted with an inlet port connect able to a water supply line and extending into an inlet chamber, a hollow stem member with an inlet end thereof being in flow communication with said inlet chamber and an outlet end thereof being in flow commu 10 nication with an irrigation head; a diaphragm seal sealingly fixed at pe ripheral boundaries thereof to the housing and sealingly articulated to the stem member and supporting it at an essentially upright position; said diaphragm seal being deformable between a first position in which the irrigation head is retracted within the housing and a second position in is which the irrigation head projects from the housing, said stem member being radially supported to enable merely its sliding displacement in an axial direction without any tilt or rotation, and characterized in that the sprinkler further comprises at least one guard portion adapted to prevent insects and undesirable material from entering the sprinkler housing dur 20 ing said second position. The sprinkler is designed with one or more of the following features and characters: - There is provided a cover member serving for two or more of the functions comprising closing a shielding portion of the housing, serving 25 as a bridge for supporting the irrigation head at an end thereof remote from an outlet nozzle, receiving the outlet nozzle, rotatably supporting the irrigation head, and closing draining ports of the housing at the first position, said cover articulated to the guard portion; * a cover member is provided for supporting the irrigation head and 30 fitted for closing the housing at the first position; * a cover member is provided fitted with the irrigation head being in flow communication with the outlet end of the stem member; 3251285_1 (GHMatters) P80603.AU 27/03/12 -3 - a bridge member integrally fitted with an outlet nozzle is in flow communication with the outlet end of the stem member; * a bridge member is suggested, having a sealing portion and ar ticulated to one of the stem member and the irrigation head, wherein said 5 at least one guard portion is an annular guard portion integrally formed with the sealing portion; - at least one guard portion is an annular guard portion integrally formed with the irrigation head; - a bridge member having a sealing portion is provided, said bridge 10 member is articulated to one of the stem member and the irrigation head, and an annular guard portion integrally formed with the sealing portion and/or said irrigation head; the guard portion being adapted to prevent insects and undesirable material from entering the sprinkler housing dur ing said second position; is - the guard portion extends intermediate the sealing portion and the top cover portion of the bridge member; - at the second position of the sprinkler the guard portion extends substantially flush with a top edge of the housing; - at the second position of the sprinkler there is a gap formed be 20 tween the guard portion integrated with the stem member and the guard portion integrated with the irrigation head, for emitting liquid therefrom. According to another aspect there is provided a sprinkler com prising a housing fitted with an inlet port extending into an inlet chamber and comprising a beveled diaphragm seal having a first face thereof ex 25 posed to pressure within the inlet chamber and a second face exposed to atmospheric pressure; a stem member articulated to said beveled diaph ragm seal and having an inlet end thereof extending into the inlet cham ber and having an outlet end articulated to an irrigation head; wherein the diaphragm seal is normally retained at a first toggle position where the 30 irrigation head is concealed within the housing, and 3251285_1 (GHMatters) P80683.AU 27/03/12 WO 2008/053459 PCT/IL2007/001116 -4 where water pressure within the inlet chamber deforms the beveled diaphragm seal into a second toggle position where the irrigation head axially displaces and projects from the housing, stem member is radially supported to enable merely its sliding displacement in an axial direction without any tilt or rotation, and characterized in that the sprinkler further comprises at least one guard portion adapted to prevent insects and undesirable material from entering the sprinkler housing during said second position. BRIEF DESCRIPTION OF THE DRAWINGS 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: Figs. 1A-1D are directed to a first embodiment of a sprinkler in accordance with the present invention wherein: Fig. 1A is an exploded isometric view; Fig. 1B is a sectional elevation of the sprinkler in the so-called closed position; and Fig. 1C is a sectional elevation of the sprinkler in the so-called open position; Fig. LD is an isometric view from below of a stem member integrated with a filter; Fig. 2A is a longitudinal isometric section of the stem member used in a sprinkler in accordance with the present invention; Fig. 2B is a section along line II-II in Fig. 2A; Figs. 3A and 3B are sectioned side views of a stem, bridge member and irrigation head according to a modification of the invention, at an exploded view and an assembled view, respectively; Figs. 4A to 4C are sectioned exploded side views illustrating three alternatives of applying an outlet nozzle in accordance with modifications of the embodiment of Fig. 1; WO 2008/053459 PCT/IL2007/001116 -5 Figs. 5A-5C are directed to a sprinkler in accordance with a second embodiment of a sprinkler in accordance with the present invention, wherein: Fig. 5A is an isometric exploded view of the sprinkler; Fig. 5B is a longitudinal sectional view of the sprinkler in its closed position; and Fig. 5C is a longitudinal section of the sprinkler in its open, pop-up position; Figs. 6A-6C illustrate a sprinkler in accordance with still another embodiment of the present invention wherein: Fig. 6A is a perspective exploded view of the sprinkler; Fig. 6B is a longitudinal section of the sprinkler in the closed position; and Fig. 6C is a longitudinal section of the sprinkler in the pop-up position; Figs. 7A and 7B illustrate a sprinkler according to a modification of the invention, wherein: Fig. 7A is a longitudinal section of the sprinkler at its closed/retracted position; and Fig. 7B is a longitudinal section of the sprinkler at its open/operative position, rotated about 90' with respect to the presentation of Fig. 7A; Figs. 8A and 8B illustrate a sprinkler according to still another modification, wherein: Fig. 8A is a longitudinal section of the sprinkler at its closed/retracted position; and Fig. 8B is a longitudinal section of the sprinkler at its open/operative position; Figs. 9A-9F illustrate a sprinkler in accordance with a further embodiment of the present invention, wherein: Fig. 9A is an isometric view of an alternative bridge member with a guard portion; Fig. 9B is an isometric view of an alternative irrigation head with a guard portion; Fig. 9C is a perspective view of the sprinkler in closed/retracted position; WO 2008/053459 PCT/IL2007/001116 -6 Fig. 9D is a perspective view of the sprinkler in open/operative position; Fig. 9E is a longitudinal section of the sprinkler in closed/retracted position; and Fig. 9F is a longitudinal section of the sprinkler in closed/retracted position. DETAILED DESCRIPTION OF THE INVENTION Attention is first directed to Figs. 1A to IC illustrating a pop-up sprinkler in accordance with the present embodiment generally designated 20. The sprinkler comprises a housing 22 fitted with a bottom cap 24 for screw engagement therewith, the latter comprising an inlet port 26 extending into an inlet chamber 30. In assembly of the sprinkler 20, the cap 24 screw clamps a beveled diaphragm seal 34 at a peripheral boundary rim 36, thus retaining the beveled diaphragm seal 34 in place within the housing. The beveled diaphragm seal 34 is fonned with a central aperture 38 wherein the inner peripheral boundaries 40 thereof 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 Figs. 1B and 1C. The annular groove 42 is formed between a first annular shoulder 50 and a second annular shoulder 52. A coiled spring 56 is provided 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 Fig. 1B. 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 WO 2008/053459 PCT/IL2007/001116 -7 reactionary rotatable irrigation head 80 comprises an inlet portion 82, which is rotatably received within a receptacle provided at the outlet end 48 of the stern member 44. The head 80 is formed with an axially projecting boss 86 rotatably supported within an opening 88 formed in the locking piece 68, the arrangement being such that the irrigation head 8e is rotatably supported with little friction whereby it freely rotates owing to reactionary forces developing upon water flow about a reactionary surface 93 (Figs. 1B and 1C). The beveled diaphragm seal 34 (Fig. 1A) is normally at either of its beveled positions, i.e., a first position as in Fig. lB when the irrigation head 80 is retracted and does not project from the housing 22, and a second position, as in Fig. 1C wherein the irrigation head projects from the housing in its operable position. The beveled diaphragm seal 34 is un-tensed at either of its two respective beveled positions. The diaphragm seal 34 comprises a normally beveled portion designated 92, with an annular resilient portion 94 extending between the peripheral portion 36 and the beveled portion 92, where deformation of the beveled diaphragm seal 34 occurs mainly about said annular resilient portion 94 in a toggle-fashion. Furthermore, as seen in Figs. 1B and 1C, the housing 22 is formed with a diaphragm seal support portion 96 having a shape corresponding with that of the beveled diaphragm seal 34 in its second position such that at said second position the diaphragm seal 34 bears against said surface 96 to ensure the diaphragm beveled seal 34 is not tensioned, as in Fig. 1C. This arrangement ensures that substantially no tension is applied to the beveled diaphragm seal and accordingly, a relatively thin and inexpensive such seal may be used. Bearing of the beveled diaphragm seal against the corresponding inclined surface 96 of the housing 22 also provides for hydraulic seal, increasing seal contact. 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.

WO 2008/053459 PCT/IL2007/001116 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 Figs. 1B and 1C, the housing 22 is formed with an annular support neck portion 57 for slidingly supporting the stem member 44, allowing it to displace only in an axial direction without any tilt or rotation. Rather then the annular portion 57, there may be formed several ribs or segments (not shown) supporting the stem member. 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 (Fig. 1B) is closed by means of bridge member 62. The shielding portion 98 is formed with two drain ports 100 (only one of which is seen in Fig. 1A). The arrangement is such that at the second position, namely the operative position of the sprinkler, the drain ports 100 are opened to ensure proper drain of the housing. However, when the sprinkler is in its retracted position, as in Fig. IB, the drain ports 100 seal by means of a corresponding sealing portion 104 coming to rest against the drain ports 100. In this position the housing is sealed and protects the assembly from dirt and insects. As can further be seen, the cap 24 is fitted with an extension piece 110 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 with an inlet passage 130 formed between the legs 126 to ensure flow communication about both faces of the WO 2008/053459 PCT/IL2007/001116 -9 membrane 122. Legs 126 further prevent rotary displacement between the stem member 44 and the cap 24. A particular application of the invention is illustrated in Fig. 1D, wherein like elements as in Figs. 1A to 1C are designated like reference numbers with a prime (')indication. The stem member generally designated 44' is similar to that seen in Figs. 1A to 1C, and comprises an inlet port 46', an annular groove 42' formed between a first annular shoulder 50' and a second annular shoulder 52, retention leg members 126' with an inlet passage 130' formed therebetween, wherein said second annular shoulder 52' is formed with a plurality of openings 127 opening into the flow control assembly 120 thus forming an integral filter unit. It is noted that the openings 127 are wider at their inner end, to prevent dirt from clamping therein. In use, the sprinkler is normally at its closed position as in Fig. 1B, wherein the beveled diaphragm seal 34 is at its first beveled position and the irrigation head 80 is retracted and does not project from the housing 22, owing to the biasing effect of coiled spring 56. However, upon introducing water pressure through inlet port 26, pressure develops within the inlet chamber 30 resulting in toggle deformation of the beveled diaphragm seal 34 into its second position (as in Fig. 1C) entailing corresponding displacement of the stem member 44 along with the associated irrigation head, whereby water flows through a lumen 136 of the stem member 44 flowing out through the outlet end 48 into the irrigation head 80 and causing it to rotate under influence of reactionary forces developing about reactionary surface 93 so as to radially admit water in the gap 140 formed between the cover portion 64 of bridge member 62 and a top edge 144 of the housing 22. 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 (Fig. 1B) with the bridge member 62 closing the housing 22 and the drain ports 100 being sealed with corresponding sealing portion 104 as discussed hereinabove.

WO 2008/053459 PCT/IL2007/001116 -10 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. Furthennore, 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 Figs. 2A and 2B there is illustrated an alternative embodiment of a stem member in accordance with the present invention generally designated 160 being substantially similar to the stem member 44 referred to in Figs. 1A-1C with the exception that its lumen 162 is formed adjacent the outlet end 164 with a flow straightening arrangement 166 in the form of fins 168 (referred to in the art also as straightening vanes) extending radially inwards for imparting the water flowing through the lumen 162 a regular smooth flow towards its outlet through the outlet end 164. The zone in the lumen 162 extending below the fins 168 is referred to as the 'quiet zone'. It is also noted in Fig. 2A that the outlet end 164 of the stein member 160 is formed with a receptacle suited for receiving the irrigation head (not seen) or a flow restricting nozzle (orifice), as discussed hereinbefore. 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 Fig. 1B) in a sealing manner. The LPD also prevents suction of dirt, sand, etc into the water supply line.

WO 2008/053459 PCT/IL2007/001116 - 11 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 Figs. 3A and 3B there is illustrated only a portion of a sprinkler according to a modification of the embodiment of Figs. 1A to 1C and accordingly like elements are given like reference numbers with a prime (') indication. According to this modification, the stem member 44' is fitted at its outlet end 48' with a receptacle 49 rotatably receiving the irrigation head 80', the later comprising an inlet portion 82' rotatably receivable within receptacle 49, and at its opposite end there is formed a bore 81 rotatably receiving a corresponding boss 83, projecting from bridge member 62' or inversely, as disclosed in connection with Figs. 4A to 4C. 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 Fig. 4A, corresponding with the embodiment of Figs. 1A to 1C, where same elements are given same reference numbers. According to this embodiment the outlet nozzle 167 is formed integral with the stem member, by means of a narrowing portion thereof. A second embodiment is illustrated in Fig. 4B, where stem member 169 is fitted with a threaded outlet end 170 for coupling thereto a bridge member 171 formed (integrally or fixedly attached thereto) with a nozzle 172 of specific nominal flow rate. The irrigation head 173 is formed with an axial projection 174 rotatable within a receptacle 175 of the bridge member 171, and further with an axial boss 176 rotatably supported by a locking piece 177 fastened to the bridge member 171. According to the embodiment of Fig. 4B, it is apparent that the bridge member/cover generally designated 171 has in fact several different functions, namely: WO 2008/053459 PCT/IL2007/001116 -12 * Sealing/closing the shielding portion of the housing; * Serving as a bridge for supporting the irrigation head at an end thereof separate from the outlet nozzle (in several different configurations, as discussed above); * Comprising the outlet nozzle; e Rotatably supporting the irrigation head; and * Sealing/closing draining ports of the housing at the first (retracted) position to prevent insect and dirt ingress, whilst opening the drain ports at an irrigating position. The irrigation head, as seen in the various embodiments of the present invention, is formed as part of the bridge member (integral therewith, or assembled thereto). Further, the irrigation head substantially does not axially displace with respect to the stem member and the bridge member, 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. Furthennore, 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 Fig. 4C where like elements are identified by same reference numbers as in Fig. 4B with a prime (') indication. According to this embodiment the stem member 169' is fitted at its outlet end 170' with a nozzle receptacle 187' for securely receiving a replaceable outlet nozzle 189'. Bridge member 171' is screw coupled over the stem 169' and retains the replaceable outlet nozzle 189' in place. Bridge member 171' is formed with a receptacle 191' rotatably receiving the irrigation head 173', the later comprising an inlet portion 174' rotatably received within receptacle 191', and at its opposite end there is formed a boss 176' rotatably received within a corresponding receptacle of a locking piece 177' fastened to the bridge member 171'. According to one other modification (not shown), the irrigation head 173' may be rotatably supported WO 2008/053459 PCT/IL2007/001116 -13 within a suitable cavity formed at the end of outlet nozzle 189', when the later is received within the stem member 169'. 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 member and the housing, dedicated connections e.g. bayonet connections suitable for only one type of outlet nozzles, etc. Further attention is now directed to Figs. 5A to 5C of the drawings directed to a different embodiment of the present invention, in this case concerned with a bridge-less sprinkler generally designated 180. Apart from the housing 182 being somewhat different in its general appearance, the sprinkler has practically the same components as of the previous embodiments and the main difference resides in the structure of the stem member and the irrigation head collectively are referred to at 186 comprising a stem member 188 which has an inlet and similar to that disclosed in connection with the embodiment of Figs. 1 and a shorter stem portion 190 fitted at its outlet end 192 with several inwardly projecting bulges 194 separated from one another by axial slots 196 imparting the structure some resilience. 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 of the stem member188. 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 Fig. 5B, and further it comprises an engagement portion 232 fitted with an annular radial WO 2008/053459 PCT/IL2007/001116 -14 projection 234 snapingly engagable over an annular groove 236 of the swivel 210. The sprinkler head 224 is further formed with a reactionary water flow path 240 giving rise to generating rotary motion upon water flow through that surface. At the retracted position (Fig. 5B) the beveled diaphragm seal 242 is in its first beveled position under biasing influence of coiled spring 246 in where the inlet port 248 is sealed by flexible diaphragm 250 of the flow control assembly, as explained in connection with the previous embodiment. However, upon introducing water pressure through the inlet port 248, the beveled diaphragm seal 242 toggles into its second beveled position, as in Fig. 5C, resulting in corresponding axial displacement of the irrigation head assembly 246 into the position of Fig. 5C such that water emitted from the reactionary rotatable sprinkler head 224 can easily flow in the gap 250 between an edge 252 of housing 182 and the closing portion 226 of the sprinter head 224. 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 Figs. 6A to 6C is also directed to a bridgeless sprinkler generally designated 266 and which is significantly similar to the embodiment of Figs. 5A-5C with the exception of the irrigation head assembly 267 directed to a different embodiment of articulating the reactionary rotatable sprinkler head 268 to the stem member 270. Accordingly, the reader is referred to the detailed description of the previous embodiments describing in detail the other components of the sprinkler. Fig. 6A is an exploded view of the sprinkler 266 and Figs. 6B and 6C are longitudinal sections of the sprinkler in a closed and an open position, respectively. The stem member 270 has a short outlet stein 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 stein member 280 having a cylindrical portion 282 received within the outlet 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.

WO 2008/053459 PCT/IL2007/001116 -15 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 stein 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 Figs. 1 and 2 may just as well be applied also in the embodiments of Figs. 2 and 6 e.g. the flow control assembly, liquid preventing device (LPD), flow rectifier, stem support arrangement, etc. It is further noticed, although not mentioned in connection with the embodiments of Figs. 5 and 6, that the beveled diaphragm disc, in its second beveled position (Figs. 5C and 6C, respectively) bear against corresponding support surfaces of the housing such that the beveled diaphragm seal is not tensed in this position. Furthermore, whilst not illustrated, it is appreciated that the sprinklers in accordance with the embodiments of Figs. 5 and 6 may also be provided with draining ports which may or may not be sealed in the retracted position. Further attention is now directed to the embodiment of Figs. 7A and 7B, illustrating a rotary sprinkler 300, where the housing comprises a base member 302 screw coupled to a body portion 304 of the housing, clampingly securing a first WO 2008/053459 PCT/IL2007/001116 -16 rimmed edge 308 of a ziggurat-like diaphragm seal 310, where a second rimmed edge 314 thereof is securely retained to a stem member 316 by a fastener 318. The body portion 304 of the housing comprises an inner surface 320 corresponding in shape and dimensions with that of the diaphragm seal 310, to thereby support it at the extracted/operative position (Fig. 7B), thereby substantially eliminating tension force within the diaphragm seal 310 as already explained herein before. It is further noted that the diaphragm seal 310 in its first position (Fig. 7A) resembles a bellows, which upon deformation to its second position (Fig. 7B) substantially does not undergo elastic deformation. It is seen that the diaphragm seal comprises first portions 324 (substantially vertically extending in both positions), and second, inclined portions 328 where deformation between positions is particularly by change of inclination of the inclined portions 328, however without tensioning thereof. 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). Furthennore, there is a coiled spring 333 biasing stem member 316 and the associated irrigation head 336 into the retracted/closed position (Fig. 7A). In this position seal 338 of the flow control assembly 340 sealingly engages the inlet port 342 formed at the base member 302 of the housing, thus serving as a leak preventing device (LPD). Also noted, the housing 304 is formed with an axial displacement restricting portion 344 in the form of an annular shoulder, which restricts axial displacement of the stem 316 and thus of the diaphragm seal 310, to thereby substantially prevent tensioning thereof in the second, operative position (Fig. 7B). Another application of the invention is illustrated in Figs. 8A and 8B of the drawings directed to a rotary sprinkler 380, being similar to the construction of the sprinkler 300 of Figs. 7A and 7B, apart from the diaphragm seal 386. 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 WO 2008/053459 PCT/IL2007/001116 -17 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 sprinkler 380 are similar as those described in connection with sprinkler 300 of Figs. 7A and 7B, however with the exception that the diaphragm seal 386, in its first position, namely the retracted position of Fig. 8A, is pre-tensed to thereby apply a biasing force to retract the stem member 400 and the components articulated thereto, whilst at the second position, namely the operative position as in Fig. 8B, the diaphragm seal 386 is tensed and deformed under water pressure to facilitate displacement of the stem into the second position. This arrangement obviates the need to provide a biasing spring as in some of the previous embodiments, for retracting the sprinkler into the retracted, first position. In the position of Fig. 8B an annular shoulder 412 of the stem member 400 bears against a corresponding stopper shoulder 414 of the housing 392, to thereby restrict its axial displacement. Whilst in the position of Fig. 8B the diaphragm seal 386 does not bear against the corresponding wall portion of the housing, this can easily be achieved by forming a suitable indention for accommodating the retention ring 404. Part for the above differences, operation of the sprinklers 300 and 380 illustrated in Figs. 7A; 7B and 8A; 8B, respectively, is similar to that disclosed in connection with the previous embodiments and reference is made to the relevant passages of the specification. Other components and structural features of the sprinkler, may be similar to those already disclosed hereinabove, e.g. flow/pressure control assembly, drain ports, type of irrigation head (i.e. static, rotational, bridge or bridgeless, dampened, etc), mounting, flow straitening fins (337 in Fig 7A) etc. Turning attention now to Figs. 9A-9F, there is illustrated a further embodiment of a sprinkler according to the present invention, generally designated 500, which comprises components similar to those described in previous embodiments, with the exception of added guard portions. The guard portions are designed to provide the sprinkler 500 protection from dirt and insects, etc., from entering therein, when the sprinkler 500 is in its open/operative position.

WO 2008/053459 PCT/IL2007/001116 -18 In Fig. 9A, an alternative bridge member, generally designated 502, is illustrated. Similar to previously described bridge members, this bridge member 502 comprises a top cover portion 504, arresting ribs 506A, and a sealing portion 508. The bridge member 502 is formed with an integral annular guard portion 510, extending intermediate the sealing portion 508 and the top cover portion 504,. for preventing insects and undesirable material from entering the sprinkler housing during the open/operative position thereof (Figs. 9D and 9F). In Fig. 9B, an alternative reactionary rotatable irrigation head, generally designated 512 is illustrated. Similar to previously described irrigation heads, it comprises an inlet portion 514, and an axially projecting boss 516. Between the inlet portion 514 and an axially projecting boss 516, there is an annular guard portion 518 integrally fonned therewith for preventing insects and undesirable material from entering the sprinkler housing during the closed position thereof, as in Fig. 9E. Referring now to Figs. 9C-9F, the sprinkler 500, is illustrated in open/operative position and closed/non-operative position. In Fig. 9D the annular guard portion 510 of the bridge member 502 is shown adjacent (substantially flush) to the top edge 521 of the housing 520 of the sprinkler 500, to create an insect and dirt seal-type effect. Notably, in the open/operative position shown in Figs. 9D and 9F, the guard portion 518 of the irrigation head 512 is spaced from the guard portion 510 of the bridge member 502. This space, designated by the numeral 522, is used by the irrigation head as the outlet from which liquid is sprayed. Items such as insects and undesirable material are therefore prevented from entering the space 522 during operation of the sprinkler by the spray of liquid therefrom. 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 - 19 upright position or an inverted position ('top down'), where suitable suspension means may be provided. It is to be understood that, if any prior art publication is referred to herein, such reference does not constitute an admission that the publication forms 5 a part of the common general knowledge in the art, in Australia or any other coun try. In the claims which follow and in the preceding description of the inven tion, except where the context requires otherwise due to express language or nec essary implication, the word "comprise" or variations such as "comprises" or 10 "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in various embodiments of the invention. 3251285_1 (GHMatlers) P8063.AU 27/03/12

Claims (13)

1. 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 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 seal being defonnable 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, said stem member being radially supported to enable merely its sliding displacement in an axial direction without any tilt or rotation, and characterized in that the sprinkler further comprises at least one guard portion adapted to prevent insects and undesirable material from entering the sprinkler housing during said second position.

2. A sprinkler according to claim 1, comprising a cover member serving for two or more of the functions comprising closing a shielding portion of the housing, serving as a bridge for supporting the irrigation head at an end thereof remote from an outlet nozzle, receiving the outlet nozzle, rotatably supporting the irrigation head, and closing draining ports of the housing at the first position, said cover articulated to the guard portion.

3. A sprinkler according to claim 1, comprising a cover member supporting the irrigation head and fitted for closing the housing at the first position.

4. A sprinkler according to claim 1, comprising a cover member fitted with the irrigation head being in flow communication with the outlet end of the stem member.

5. A sprinkler according to claim 1, comprising a bridge member integrally fitted with an outlet nozzle being in flow communication with the outlet end of the stem member. WO 2008/053459 PCT/IL2007/001116 -21

6. A sprinkler according to claim 1, further comprising a bridge member having a sealing portion and articulated to one of the stem member and the irrigation head, wherein said at least one guard portion is an annular guard portion integrally formed with the sealing portion.

7. A sprinkler according to claim 1, wherein at least one guard portion is an annular guard portion integrally formed with the irrigation head.

8. A sprinkler according to claim 1, further comprising a bridge member having a sealing portion and articulated to one of the stem member and the irrigation head, and an annular guard portion integrally formed with the sealing portion and/or said irrigation head; the guard portion being adapted to prevent insects and undesirable material from entering the sprinkler housing during said second position.

9. A sprinkler according to claim 8, wherein the guard portion extends intermediate the sealing portion and the top cover portion of the bridge member.

10. A sprinkler according to claim 6, wherein at the second position of the sprinkler the guard portion extends substantially flush with a top edge of the housing.

11. A sprinkler according to claim 7, wherein at the second position of the sprinkler there is a gap formed between the guard portion integrated with the stem member and the guard portion integrated with the irrigation head, for emitting liquid therefrom.

12. A sprinkler comprising a housing fitted with an inlet port extending into an inlet chamber and comprising a beveled diaphragm seal having a first face thereof exposed to pressure within the inlet chamber and a second face exposed to atmospheric pressure; a stem member articulated to said beveled diaphragm seal and having an inlet end thereof extending into the inlet chamber and having an outlet end articulated to an irrigation head; wherein the diaphragm seal is normally retained at a first toggle position where the irrigation head is concealed within the housing, and where water pressure within the inlet chamber defonns the beveled diaphragm seal into a second toggle position where the irrigation head axially - 22 displaces and projects from the housing, stem member is radially supported to enable merely its sliding displacement in an axial direction without any tilt or rotation, and characterized in that the sprinkler further comprises at least one guard portion adapted to prevent insects and undesirable material from entering the sprinkler housing during 5 said second position.

13. A sprinkler substantially as herein described with reference to the accompa nying figures. 10 3251251 (GHMatters) P8063.AU 27/03/12