Irrigation sprinkler nozzle having deflector with micro-ramps
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-001/26
B05B-001/30
B05B-003/02
출원번호
US-0757912
(2010-04-09)
등록번호
US-9427751
(2016-08-30)
발명자
/ 주소
Kim, Eugene Ezekiel
출원인 / 주소
Rain Bird Corporation
대리인 / 주소
Fitch Even Tabin & Flannery LLP
인용정보
피인용 횟수 :
3인용 특허 :
280
초록▼
A spray nozzle for an irrigation sprinkler is provided, where the nozzle has a deflector that is configured with depending ribs. Each of the ribs has micro-structures that cooperate with other geometry of the rib and deflector to define a plurality of different micro-ramps for dividing the discharge
A spray nozzle for an irrigation sprinkler is provided, where the nozzle has a deflector that is configured with depending ribs. Each of the ribs has micro-structures that cooperate with other geometry of the rib and deflector to define a plurality of different micro-ramps for dividing the discharged water into different sprays having different characteristics that can be combined to achieve a spray pattern.
대표청구항▼
1. An irrigation spray nozzle comprising: a nozzle body defining at least in part one or more fluid discharge flow passages for the passage of water; anda deflector to deflect water received from the one or more fluid discharge flow passages, the deflector having radially extending ribs depending fr
1. An irrigation spray nozzle comprising: a nozzle body defining at least in part one or more fluid discharge flow passages for the passage of water; anda deflector to deflect water received from the one or more fluid discharge flow passages, the deflector having radially extending ribs depending from an underside of the deflector, adjacent ones of the ribs forming channels for water flow therebetween, a plurality of the ribs from the radially extending ribs, each rib of the plurality of the ribs having a pair of opposing sides, and each side comprises at least a first step extending into an adjacent one of the channels and at least partially in a radially extending direction such that a micro-ramp extends into the adjacent one of the channels for directing a portion of the water flow, the micro-ramp being spaced from a bottom of the channel defined by the underside of the deflector, the micro-ramps on the pair of opposing sides of each of the plurality of the ribs being spaced from each other. 2. The irrigation spray nozzle of claim 1, wherein the plurality of ribs are each wider on a side of the first step adjacent the bottom of the channels than on an opposite side of the first step from the bottom of the channels. 3. The irrigation spray nozzle of claim 1, wherein at least some of the plurality of the ribs each have at least the first step and a second step on a common side and extending into an adjacent one of the channels and at least partially in a radially extending direction such that more than one micro-ramp extends into the adjacent one of the channels for directing a portion of the water flow, each of the more than one micro-ramps being spaced from the bottom of the channel. 4. The irrigation spray nozzle of claim 3, wherein the plurality of ribs are each wider on a side of any one of the more than one step adjacent the bottom of the channels than on an opposite side of the one of the steps from the bottom of the channels. 5. The irrigation spray nozzle of claim 4, wherein the first step is closer to the bottom of the channel than the second step, and each of the plurality of the ribs having an underside, the bottom of the channels, the first steps, second steps and underside of the ribs each configured to provide for more than one discrete spray. 6. The irrigation spray nozzle of claim 5, wherein the first step directs a first segment of the spray, the second step directs a mid-range spray segment extending closer from the spray nozzle as compared to the first segment of the spray, the underside of the rib directs a close-in spray segment extending closer from the spray nozzle as compared to the mid-range spray segment, and the bottom of the channel directs a second spray segment extending further than the mid-range and close-in spray segments and orientated out of phase with the first segment of the spray. 7. The irrigation spray nozzle of claim 1, wherein the deflector has an upper portion with an underside with the radially extending ribs thereon and a lower portion with a neck depending from the underside with flow notches disposed about its outer periphery, the flow notches of the neck being aligned with and intersecting channels formed between the radially extending ribs such that water flow paths extend through the flow notches of the neck and into the channels. 8. The irrigation spray nozzle of claim 1, further comprising: a base having a first end portion adapted for attachment to an irrigation device and a second end portion;a first helical surface fixed relative to the base;a second helical surface rotatable relative to the base, the first and second helical surfaces cooperating to define an arcuate flow passage adjustable in size to determine an arc of spray distribution upon relative rotation between the first and second helical surfaces. 9. The irrigation spray nozzle of claim 8, wherein the nozzle body is a collar mounted for rotation about the second end portion of the base and includes the second helical surface and a neck of the deflector includes the first helical surface. 10. The irrigation spray nozzle of claim 9, wherein the deflector has an upper portion with the radially extending ribs and wherein the neck of the deflector depends from the underside of the deflector and has flow notches disposed about its outer periphery, the flow notches being aligned with and intersecting the channels formed between the ribs such that water flow paths extend through the flow notches and into the channels. 11. The irrigation spray nozzle of claim 1, wherein each of the plurality of the ribs have a bottom wall having a first segment and a second segment, the second segment being radially outward relative to the first segment and inclined relative to the first segment. 12. An irrigation spray nozzle comprising: a base having a longitudinal axis and at least one water passage extending through the base; anda deflector body having a deflector portion and a neck, the deflector portion being positioned to receive a discharge of water from the at least one water passage and redirecting the discharge of water generally radially outward, the deflector portion having a plurality of radially-outward extending, depending ribs with adjacent ones of the depending ribs forming channels for water flow therebetween, the plurality of radially-outward extending, depending ribs each having a pair of sidewalls and a bottom wall, the sidewalls each at least partially defining a plurality of distinct micro-ramps projecting laterally into the channels and spaced from a bottom of the channels defined by an underside of the deflector portion, for dividing the discharge of water into different sprays for irrigating different areas adjacent the irrigation spray nozzle. 13. The irrigation spray nozzle of claim 12, wherein a plurality of flow notches are disposed about an outer periphery of the neck, the plurality of flow notches being aligned with and intersecting the channels formed between the ribs such that water flow paths extend through the flow notches into the channels. 14. The irrigation spray nozzle of claim 12, wherein each rib has a plurality of steps on the same side each projecting toward an adjacent rib a different distance. 15. The irrigation spray nozzle of claim 12, wherein the plurality of micro-ramps includes a first micro-ramp and a second micro-ramp on a common side of one of the ribs, the first micro-ramp has a radially-outward portion that is inclined to a greater degree than the second micro-ramp. 16. The irrigation spray nozzle of claim 15, wherein the bottom wall of each of the ribs has a radially outward portion that is inclined to a greater degree than the radially-outward portion of the first micro-ramp. 17. The irrigation spray nozzle of claim 16, wherein the sidewalls of each of the ribs at a radially outward end taper toward each other. 18. The irrigation spray nozzle of claim 12, wherein: the lower neck of the deflector body has a deflector helical surface that is fixed relative to the base; anda collar is mounted for rotation relative to a portion of the base, the collar having a collar helical surface configured to cooperate with the deflector helical surface to define an arcuate flow opening upstream of the upper deflector portion and adjustable in size to determine an arc of water distribution upon rotation of the collar relative to the deflector body. 19. The irrigation spray nozzle of claim 12, wherein the plurality of micro-ramps includes a first micro-ramp, spaced from the underside of the deflector portion, comprising a first step that is generally linear and positioned at an angle closer to perpendicular relative to a central axis of the deflector as compared to the underside of the deflector portion. 20. The irrigation spray nozzle of claim 19, wherein the plurality of micro-ramps includes a second micro-ramp, on a common sidewall as the first micro-ramp, comprising a second step that is segmented, having a radially inward portion that extends closer to perpendicular relative to the central axis as compared to a radially outward portion. 21. A method for forming a spray of water from an irrigation spray nozzle, the nozzle having a deflector with a plurality of radially-outward extending, depending ribs forming channels for water flow therebetween, the ribs each having a pair of sidewalls and a bottom wall, the sidewalls each having at least one step projecting laterally a first distance from the sidewall and spaced from a bottom of the channel, the method comprising: discharging water against the deflector; anddeflecting at least some of the water generally radially outward along a plurality of flow paths disposed between adjacent pairs of the ribs and the bottom of the channels, a first of the flow paths on a side of the step closer to the bottom wall having a first fraction of the total discharged water volume and a second of the flow paths on a side of the step opposite the bottom wall having a second fraction of the total discharged water volume, the second fraction being different than the first fraction. 22. The method of claim 21, wherein the step of deflecting the water radially outward further includes redirecting a secondary portion of the water from the second of the flow paths to thereby having a primary and secondary portion of the water, the secondary portion of the water having a throw different than that of the primary portion. 23. The method of claim 22, wherein the step of discharging water and against the deflector further includes the step of dividing the water into discrete flows upstream of the deflector and directing each of the discrete flows into an associated one of the channels. 24. The method of claim 23, further including the step of deflecting a portion of the water generally radially outward along a plurality of close-in flow paths, each of the close-in flow paths being disposed on an underside of the ribs, the water discharging along the close-in flow path having a throw less than the first of the flow paths. 25. The method of claim 21, further including a step of adjusting an arcuate extent of a discharge opening prior to the step of discharging water against the deflector.
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Kah ; Jr. Carl L. C. (778 Lakeside Dr. North Palm Beach FL 33408), Transmission device having an adjustable oscillating output for rotary driven sprinklers.
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