Nozzle for blasting liquid detergents with dispersed abrasive particles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61C-017/00
B05B-001/34
B24C-005/04
B05B-015/18
A61C-003/025
출원번호
US-0520749
(2011-06-10)
등록번호
US-10058406
(2018-08-28)
우선권정보
DE-10 2010 051 227 (2010-11-12)
국제출원번호
PCT/IB2011/001325
(2011-06-10)
§371/§102 date
20120705
(20120705)
국제공개번호
WO2012/069894
(2012-05-31)
발명자
/ 주소
Mueller, Daniel
출원인 / 주소
Dental Care Innovation GmbH
대리인 / 주소
Hooker & Habib, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
61
초록▼
For to avoid clogging from abrasive media, a nozzle contains an element for circular vortexing the passing jet of detergents in combination with a defined flexibility of its elements, which—together with a pulsating stream of media—causes vibrations, that constantly lead to peeling off adhering resi
For to avoid clogging from abrasive media, a nozzle contains an element for circular vortexing the passing jet of detergents in combination with a defined flexibility of its elements, which—together with a pulsating stream of media—causes vibrations, that constantly lead to peeling off adhering residues.
대표청구항▼
1. A nozzle unit for a dental apparatus that discharges a water stream carrying abrasive particles, the nozzle unit comprising: a one-piece nozzle, a spin body, and a member attaching the spin body to the nozzle;the nozzle being formed of a semirigid plastic, the nozzle comprising an intake end, a d
1. A nozzle unit for a dental apparatus that discharges a water stream carrying abrasive particles, the nozzle unit comprising: a one-piece nozzle, a spin body, and a member attaching the spin body to the nozzle;the nozzle being formed of a semirigid plastic, the nozzle comprising an intake end, a discharge end, and a duct surrounded by a duct wall extending in a downstream direction along an axis of the nozzle from the intake end to the discharge end, the axis defining a circumferential direction around the axis, the discharge end configured to discharge fluid from the nozzle, the nozzle being sufficiently flexible to release accumulated particles on the duct wall when a water stream flows through the duct; andthe spin body being a solid body comprising a closed first end, a closed second end spaced in the downstream direction from the second end, and an outer first surface extending from the first end to the second end of the spin body, the first surface being spaced away from the axis and surrounding the axis, the spin body being disposed in the duct and being configured to generate vortexal flow in water flowing in the duct past the spin body;the member having opposite first and second ends, the member being disposed in the duct, the first end of the member being attached to and extending away in an upstream direction from the first end of the spin body to the second end of the member, the second end of the member being connected to the nozzle upstream from the spin body, the member between said first end and said second ends of the member being spaced away from the duct wall wherein the member and the duct wall cooperatively form a first channel portion extending along the duct wall in the downstream direction and surrounding the member;the spin body being spaced away from the duct wall wherein the outer surface of the spin body and the duct wall cooperatively form therebetween a second channel portion extending downstream from the first channel portion along the duct wall from the first end of the spin body to the second end of the spin body, the second channel portion surrounding the spin body and the second channel portion being surrounded by the duct wall, the spin body comprising at least one second surface extending away from the first surface into the second channel portion, the at least one second surface extending in the circumferential direction at least partially around the first surface;the spin body obstructing downstream water flow past the spin body wherein all of the water in the water stream flowing through the nozzle flows through the first channel portion and the second channel portion and around the entire outer first surface of the spin body when the water stream flows past the spin body, the water stream when flowing through the second channel portion engaging the at least one second surface and being urged by the at least one second surface to flow with a circumferential flow component and thereby generate vortexal flow of the water stream downstream from the spin body. 2. The nozzle unit of claim 1 wherein a first portion of the duct wall defines an expanding nozzle mouth at the discharge end of the nozzle, the nozzle mouth expanding in the downstream direction, the nozzle mouth being tapered at between 45° and 50°. 3. The nozzle unit of claim 2 wherein the first portion of the duct wall has a maximum wall thickness of not greater than 1 millimeter. 4. The nozzle unit of claim 2 wherein a second portion of the duct wall defines a straight guideway that discharges into the nozzle mouth. 5. The nozzle unit of claim 1 wherein the nozzle is formed from polymethylmetacrylate (PMMA) or hard PVC. 6. The nozzle unit of claim 1 wherein the member comprises an outer surface surrounding the axis, the outer surface of the member being closer to the axis than the outer first surface of the spin body. 7. The nozzle unit of claim 1 wherein the spin body is an untapered spin body. 8. The nozzle unit of claim 1 wherein the duct wall defines a compression zone in a portion of the duct, the compression zone extends in the downstream direction and constricts as the compression zone extends in the downstream direction, and the spin body is an untapered spin body disposed outside of the compression zone. 9. The nozzle unit of claim 8 wherein the compression zone constricts at between 15° and 20° off axis. 10. The nozzle unit of claim 1 further comprising a stream of water flowing into the intake end of the nozzle and being discharged from the discharge end of the nozzle, the pressure of the stream being at or below 10 bar at the intake end, the stream of water carrying abrasive particles suitable for dental cleaning through the nozzle, the abrasive particles being discharged from the nozzle at the discharge end of the nozzle. 11. The nozzle of claim 1 wherein the at least one second surface comprises a plurality of second surfaces, the plurality of second surfaces being parallel with one another. 12. The nozzle of claim 1 wherein the spin body comprises twisted lamellae, the at least one second surface comprises a plurality of second surfaces, and each second surface of the plurality of second surfaces is disposed on a respective lamella. 13. The nozzle unit of claim 1 wherein the spin body is a tapered spin body. 14. The nozzle unit of claims 13 wherein the duct wall defines a compression zone in a portion of the duct, the compression zone extends in the downstream direction and constricts as the compression zone extends in the downstream direction, and the spin body is at least partially disposed in the compression zone. 15. The nozzle unit of claim 14 wherein the compression zone constricts at between 25 degrees and 45 degrees off axis. 16. A nozzle for discharging a stream of water carrying abrasives for dental cleaning, the nozzle comprising: a tubular body formed of semirigid plastic and comprising an intake end, a discharge end spaced downstream from the intake end, an annular wall extending from the intake end to the discharge end, the wall defining and surrounding a duct extending along an axis in a downstream direction through the tubular body from the intake end to the discharge end, a first portion of the wall defining a compression zone in the duct having an upstream end and a downstream end spaced in the downstream direction from the upstream end, the compression zone contracting in the downstream direction from the upstream end to the downstream end of the compression zone; anda spin body in the duct, the spin body configured to generate vortexal flow in a stream of water in the duct flowing past the spin body, the spin body having a closed first end, an opposite closed second end disposed downstream from the first end, and an outer first surface extending from the first end to the second end, the first surface spaced away from the axis and surrounding the axis, the spin body disposed in the duct in an upstream direction from the downstream end of the compression zone, the spin body and the wall cooperatively defining a first channel portion between the spin body and the wall extending from the first end of the spin body to the second end of the spin body, the first channel portion surrounding the first surface of the spin body and being surrounded by the wall;the spin body comprising at least one second surface extending away from the first surface into the first channel portion, the at least one second surface extending in the circumferential direction at least partially around the first surface;a member in the duct having opposite first and second ends, the member connecting the spin body and the tubular body, the first end of the member attached to an upstream side of the spin body and extending from the spin body in an upstream direction to the second end of the member, the second end of the member being connected to the tubular body upstream from the spin body, the member between the first and second ends of the member being spaced away from the wall wherein the member and the duct wall cooperatively form a second channel portion extending along the duct upstream from the first channel portion and surrounding the member;wherein all of the water in the water stream flowing through the duct flows through the second channel portion and the first channel portion when the water stream flows past the spin body, all of the water flowing through the first channel portion surrounding the spin body and flowing between the outer first surface of the spin body and the wall, the water flowing through the first channel portion engaging the at least one second surface of the spin body, the at least one second surface being disposed on the first surface of the spin body to induce a circumferential flow component in the water flowing through the first channel portion and thereby generate vortexal flow in the water flowing past the spin body. 17. The nozzle of claim 16 wherein the spin body is disposed outside of the compression zone. 18. The nozzle unit of claim 17 wherein the compression zone extends along an axis, and the compression zone constricts at between 15° to 20° off axis. 19. The nozzle unit of claim 17 wherein the spin body is an untapered spin body. 20. The nozzle of claim 16 wherein the spin body has a maximum diameter of N mm and the at least one second surface is a spiral surface having between N+1 and N−1 turns. 21. The nozzle of claim 16 wherein the plastic is polymethylmetacrylate (PMMA) or hard PVC. 22. The nozzle of claim 16 wherein the wall comprises a second portion defining a guideway in the duct, the guideway extending along a straight line downstream from the compression zone. 23. The nozzle of claim 16 wherein the wall comprises a second wall portion defining an expansion zone in the duct downstream from the compression zone, the expansion zone having an upstream end and a downstream end spaced downstream from the upstream end, the downstream end of the expansion zone located at the downstream end of the body, the expansion zone expanding in the downstream direction. 24. The nozzle of claim 23 wherein the expansion zone extends along an axis and the expansion chamber expands at between 40° and 50° off axis. 25. The nozzle of claim 23 wherein the wall comprises a third wall portion connecting the first and second wall portions, the third wall portion defining a guideway in the duct extending in a straight line from the compression zone to the expansion zone. 26. The nozzle of claim 25 wherein the guideway has a uniform diameter from the compression zone to the expansion zone. 27. The nozzle of claim 25 wherein the first wall portion, second wall portion, and third wall portion are polished. 28. The nozzle of claim 23 wherein the second wall portion has a wall thickness of not more than 1 mm. 29. The nozzle of claim 16 wherein the spin body is outside of the compression zone and comprises a plurality of twisted lamellae, the at least one second surface comprises a plurality of second surfaces, each second surface of the plurality of second surfaces being disposed on a respective one of the lamellae. 30. The nozzle unit of claim 16 wherein the member has an outer surface disposed along the axis, the outer surface of the member being closer to the axis than the outer first surface of the spin body. 31. The nozzle of claim 16 further comprising a stream of water flowing into the intake end of the nozzle and being discharged from the discharge end of the nozzle, the pressure of the stream being at or below 10 bar at the intake end, the stream of water carrying abrasive particles suitable for dental cleaning through the nozzle, the abrasive particles being discharged from the nozzle at the discharge end of the nozzle. 32. The nozzle of claim 16 wherein the spin body is disposed in the compression zone. 33. The nozzle of claim 32 wherein the compression zone extends along an axis, and the compression zone constricts at between 25 degrees and 45 degrees off axis. 34. The nozzle of claim 23 wherein the spin body is a tapered spin body.
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