WO1998053954A1 - Appareil produisant un flux gazeux de particules abrasives et systeme de regulation associe - Google Patents
Appareil produisant un flux gazeux de particules abrasives et systeme de regulation associe Download PDFInfo
- Publication number
- WO1998053954A1 WO1998053954A1 PCT/US1998/011040 US9811040W WO9853954A1 WO 1998053954 A1 WO1998053954 A1 WO 1998053954A1 US 9811040 W US9811040 W US 9811040W WO 9853954 A1 WO9853954 A1 WO 9853954A1
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- WIPO (PCT)
- Prior art keywords
- gas
- container
- tube
- pinch
- interior
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C3/00—Dental tools or instruments
- A61C3/02—Tooth drilling or cutting instruments; Instruments acting like a sandblast machine
- A61C3/025—Instruments acting like a sandblast machine, e.g. for cleaning, polishing or cutting teeth
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C7/00—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts
- B24C7/0046—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a gaseous carrier
- B24C7/0053—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a gaseous carrier with control of feed parameters, e.g. feed rate of abrasive material or carrier
Definitions
- This invention relates to gas abrasive technology. More particularly, it relates to methods and apparati for supplying a gas stream of abrasive particles to abrade a surface and to control the flow of such a stream to the surface to be abraded.
- the invention is particularly useful for dental applications.
- gas abrasive in the dental industry has considerably reduced the pain and general unpleasantness involved in dental procedures.
- Traditional gas abrasive delivery systems worked much like a salt shaker. They were basically chambers which would be vibrated in order to force the abrasive out of the holes at the bottom of the chamber.
- Another type of gas abrasive delivery system vibrated the abrasive to flow up through a circular track to bring sand up through the top of the chamber.
- These systems had the common problem of excessive noise and vibration.
- Systems can be found which avoid the excessive noise and vibration by blowing gas over the top of the abrasive to create a dust cloud which could be blown or sucked out to the end piece. These systems had severe difficulty with abrasive flow control.
- the apparatus of this invention provides a gas abrasive delivery system having a more consistent flow pattern of the gas/abrasive stream. Also provided is a unique double- action pinch valve for controlling the flow of the gas/abrasive stream.
- One aspect of this invention is an apparatus for dispensing a pressurized stream of gas having particles suspended therein, which apparatus comprises: a container having a top portion and a bottom portion for holding the particles in a powder form; a closure means for the container so that the container can be pressurized by a gas; an interior chamber inside the container having at least one abrasive particle passage towards the bottom of the interior chamber through which the abrasive particles can enter the interior portion of the interior chamber; a gas inlet line leading into the container; an interior tube located inside the container having inlet and outlet ends and connected at its inlet end to the gas inlet line, the outlet end of the interior tube being directed downwardly into the interior of the interior chamber; and an outlet passage leading from the interior of the interior chamber to the outside of the container.
- Another aspect of this invention is a double acting pinch valve that comprises: an unitary container; gas inlet port leading into the container; a pinch bar having a first contact side and a second contact side; a first passage for a first flexible tube leading past the first contact side of the pinch bar; a second passage for a second flexible tube leading past the second contact side of the pinch bar; a tension means for retaining the pinch bar in a first position sufficient to pinch closed a first flexible tube in the first passage; and an air pressure actuatable means within the container that, upon providing a pressurized gas to the gas inlet port, moves the pinch bar from the first position to a second position sufficient to open the first flexible tube in the first passage and pinch closed the second flexible tube in the second passage.
- Yet another aspect of this invention is a double acting pinch valve comprising: a unitary container; a gas inlet port leading into the container; a first, movable pinch bar having a first contact portion and a second contact portion; a first passage for a first flexible tube leading past the first contact portion of the movable pinch bar; a first pinch seat in contact with the second contact portion of the movable pinch bar; a second, fixed pinch bar; a second passage for a second flexible tube leading past the fixed pinch bar; a second pinch seat juxtaposed to the fixed pinch bar such that the second flexible tube is positioned therebetween; a translation means connected to the movable pinch bar; a first tension means associated with the translation means for retaining the translation means in a first position sufficient to maintain the movable pinch bar to hold open the first flexible tube in the first passage, a second tension means for maintaining the second pinch seat in a position sufficient to pinch closed the second flexible tube against the fixed pinch bar; an air pressure actuatable means within the container that, upon providing a pressurized gas
- a container having a top portion and a bottom portion for holding the particles in a powder form, the container having a closure means for the container so that the container can be pressurized by a gas; an interior chamber located inside the container having at least one abrasive particle passage towards the bottom of the interior chamber through which the abrasive particles can enter the interior portion of the interior chamber; a gas inlet line leading into the container; an interior tube located inside the container having inlet and outlet ends and connected at its inlet end to the gas inlet line, the outlet end of the interior tube being directed downwardly into the interior of the interior chamber; and an outlet passage leading from the interior of the interior chamber to the outside of the container.
- a handpiece with a nozzle for directing a pressurized stream of gas/particles against a surface
- FIG. 1 Another aspect of this invention is a gas abrasive apparatus for directing a pressurized stream of gas/abrasive particles against a surface, which apparatus comprises:
- a double acting pinch valve that acts upon the first flexible transmission tube and that comprises: a unitary container; a gas inlet port leading into the container; a first, movable pinch bar having a first contact portion and a second contact portion; a first passage for the first flexible transmission tube leading past the first contact portion of the first pinch bar; a first pinch seat in contact with the second contact portion of the first pinch bar; a second, fixed pinch bar; a second passage for a second flexible transmission tube leading past the second pinch bar; a second pinch seat juxtaposed to the second pinch bar such that the second flexible tube is positioned therebetween; a translation means connected to the first pinch bar; a first tension means associated with the translation means for retaining the translation means in a first position sufficient to maintain the first pinch bar to hold open the first flexible tube in the first passage, a second tension means for maintaining the second pinch seat in a position sufficient to pinch closed the second flexible tube against the second pinch bar; an air pressure actuatable means within the container that, upon providing a pressurized gas to the gas
- a second flexible transmission tube having its inlet end connected in fluid communication at a junction downstream of the pinch valve and leading through the second passage of the pinch valve to the outlet end of the second, flexible transmission tube.
- Another aspect of this invention is an apparatus for producing a gaseous stream having abrasive particles suspended therein, which apparatus comprises: (a) a source of a pressurized stream of abrasive particles suspended in a gas;
- a first flexible transmission tube connecting the handpiece with the pressurized stream of gas-suspended particles; wherein the improvement comprises: a double acting pinch valve to close the first flexible transmission tube and simultaneously allow exhaust of the stream through a second flexible transmission tube.
- Yet another aspect of the invention pertains to an apparatus for dispensing a pressurized stream of gas having particles suspended therein onto a surface
- apparatus comprises: a source of particles; a source of pressurized gas; a particle-mixing means supplied with the particles and pressurized gas, for combining the particles and the pressurized gas to produce a gas/particle stream; a first flexible transmission tube leading from the particle-mixing means to a delivery means for delivering the gas/particle stream to the surface; a double-acting pinch valve positioned between the particle-mixing means and the delivery means, and fitted with the first tube and a second flexible transmission tube, which is joined to the first tube at a junction between the valve and the delivery means; and a valve-activating means; wherein when the valve is activated and in a first position, the second tube is closed and the gas/particle stream flows through the first tube to the surface; and when the valve is not activated and in a second position, the first tube is closed and the gas/particle stream flows through the second tube
- Figures IA and IB offer an exploded view of an apparatus of this invention for dispensing a pressurized stream of gas having particles suspended therein.
- Figure 2 is a side view of the assembled apparatus of Figure 1.
- Figure 3 is a front view of the assembled apparatus of Figure 1.
- Figure 4 is a cross-section view of the assembled apparatus of Figure 1.
- Figure 5 is a schematic design for a dental gas abrasive system in accordance with this invention.
- Figure 6 is a schematic design for the unique double-action pinch valve in accordance with this invention.
- Figure 7 is a schematic design for gas abrasive system in accordance with this invention.
- Figure 8 is an exploded view of a double acting pinch valve of this invention.
- Figure 9 is a side view of the assembled valve of Figure 8.
- One aspect of this invention is an apparatus for dispensing a pressurized stream of gas having particles suspended therein, which apparatus comprises a container having a top portion and a bottom portion for holding the particles in a powder form; a closure means for the container so that the container can be pressurized by a gas; an interior chamber located inside the container having at least one abrasive particle passage towards the bottom of the interior chamber through which the abrasive particles can enter the interior portion of the interior chamber; a gas inlet line leading into the container; an interior tube located inside the container having inlet and outlet ends and connected at its inlet end to the gas inlet line, the outlet end of the interior tube being directed downwardly into the interior of the interior chamber; and an outlet passage leading from the interior of the interior chamber to the outside of the container.
- gas/abrasive particles As used herein, the terms “gas/abrasive particles”, “gas/abrasive”, “gas/particle” and “gas-suspended particles” are used interchangeably to mean a mixture of gas and abrasive particles, typically a pressurized stream of gas having abrasive particles suspended therein.
- Figures IA and IB A more detailed description of certain preferred aspects of the apparatus of this invention is shown in Figures IA and IB.
- the apparatus comprises a container having a top portion and a bottom portion.
- the container in this particular representation is shown in three parts.
- the bottom portion is shown as 4, while the middle portion, which is connected thereto, is shown as 15 and upper portion 15a is shown as part of 15 as well.
- the container has a closure means shown as 16 so that the container may be pressurized by a gas.
- the closure means 16 may be threaded to screw onto the upper portion 15a, may snap fit, may have a clamp to hold closure 16, or other equivalent structure to achieve closure so that the container may be pressurized by a gas.
- Inside the container is located an interior chamber shown as 13 which in this representation is shown to fit into the bottom portion of the container.
- the interior chamber 13 is shown as fitting into receptacle 13a in the bottom portion 4 of the container.
- the interior chamber is shown to fit into the bottom of the container, the interior chamber can be positioned anywhere within the interior of the container. Thus for example, it could be positioned towards the side of the container , attached in the middle of the container or attached to the closure means 16.
- FIG. 1 Once the interior chamber is positioned as shown in Figure 1 , it can be seen that it has at least one abrasive particle passage 13b toward the bottom of the interior chamber through which abrasive particles can enter the interior portion of the interior chamber.
- Figure IA only illustrates one abrasive particle passage 13b
- interior chamber 13 preferably has at least four such passages for optimal particle flow. Such passages have a diameter large enough to permit particle flow and typically have a diameter at least twice the diameter of the particles.
- the abrasive particles will be positioned within the container and the majority of the particles will be located between the outside wall of interior chamber
- the particles will flow through the passage 13b and into the interior of interior chamber 13.
- the interior chamber 13 will be closed at its top by a cap 14.
- the cap will have passageways 14a that will allow gas to flow into the interior chamber or out of the interior chamber depending upon the relative pressure inside middle portion 15.
- the passages 14a are of a smaller dimension when larger abrasive particles are used in the container and the passage is large when smaller particle sizes are used in the container. Passages 14a are shown in Figure IB as having a fixed diameter. It is understood however, that cap
- passage 14 may be designed such that these passages have an adjustable diameter that can be varied to suit the particular requirements of the user. In such an event, it is preferable that the apparatus be designed so that the passage 14a diameters may be adjusted remotely.
- a gas inlet line 2 leads into the container through an internal passageway shown as 2a.
- An interior tube 9 is positioned to be connected to line 2 through connector 6 and optional holder 7.
- the gas inlet line here is shown as being located at the bottom portion of the container and internal to the interior chamber 13.
- the gas inlet line may be located anywhere through any wall of the container so long as its function is performed appropriately.
- the tube 9 has an inlet end 9a and an outlet end 9b.
- the outlet end of interior tube 9 is directed downwardly into the interior of chamber 13.
- tube 9 is shown to fit into the bottom of bottom portion 4.
- tube 9 can be positioned anywhere within the interior of the container. Thus for example, it could be positioned towards the side of the container or attached in the middle of the container. The only limitation is that it must be positioned such that the outlet end 9b is directed downwardly into the interior of chamber 13.
- an outlet passage leading from the interior of chamber 13 to the outside of the container is shown as upright outlet tube 8 connected to fitting 5 which fits into the bottom of container 4 connecting to passageway 5b and outlet 1 shown in the Figure IA as being disconnected is from the container.
- the inlet end 8a of tube 8 is positioned lower than the outlet end 9b of tube 9.
- Tube 8 can be aligned with tube 9, as shown in Figure 1 A or it can be in an offset position.
- Inlet end 8a can be positioned above or below the level of abrasive particles contained within interior chamber 13. When end 8a is positioned above the particle level, less abrasive particles will be suspended in the gas stream than when end 8a is positioned below the particle level.
- a passage defined by connector 3 through passageway 3 a provides an inlet and outlet for the flow of gas to pressure up the container and to pressure down the container.
- the gas may enter through inlet 3 and passage 3 a to tube 10 and fitting 11 topped by a filter device 12, which prevents any abrasive particle backflow.
- the container is assembled and the closure means 16 connected so that the container can be pressurized by a gas.
- Pressurized gas flows in through inlet 2 and passage 2a to tube 9 and out the outlet of tube 9 at 9b.
- the particles which are held within the container as previously mentioned flow through passageway 13b.
- the particles entering through passageway 13b are suspended and are forced out outlet tube 8 through the outlet 5b and 1 to a transmission line where it is directed to a handpiece with a nozzle that can be directed against a surface to abrade the surface.
- Numerous particle types and size are contemplated as part of the invention.
- typical particles will be in the range of 2-100 microns, more typically 25-50 microns in diameter; suitable particle materials include alumina, aluminum oxide and calcium carbonate.
- a schematic shown in Figure 7 shows a system employing the apparatus in its simplest form.
- a source of pressurized gas (which may be carbon dioxide, nitrogen, argon, air or other suitable gas) is provided.
- the apparatus of the invention can operate under a broad range of gas pressures, depending upon the particular application. For example, 35-160 p.s.i. are suitable ranges for dental applications.
- the gas 20 goes through a transmission line 21 to the inlet 22 to the container shown in Figure 1 or a similar container 23.
- the particles are suspended as discussed hereinbefore and exit container 23 through outlet 24 into transmission line 25.
- the amount of gas added will adjust the number of particles in the line going to the handpiece and can adjust the rate at which the abrasion will take place.
- the amount of added gas may be varied by including an adjustable valve 26 in line 29.
- the gas- particle suspension leaves mixing chamber 30 to go to valve 33.
- this is a pinch valve that operates on a flexible line 34 leading to handpiece 35.
- the pinch valve may be operated by an off/on switch or three-way valve 31 which allows gas to flow through line 32 and turn it on or to not have gas flowing through the line and turned off. Alternatively, it can be turned on with no gas flow and off with gas flow.
- the system is also provided with vents 140 and 142.
- FIG 2 one can see a side view of the container shown in Figure 1.
- the middle portion 15 is shown as fitting into bottom portion 4 and closure means 16.
- the gas inlet line or nipple is shown as 2 with the internal passage showing in lighter lines as 2b.
- the outer tip la of outlet nipple 1 shown in Figure IA is shown in Figure 2.
- Figure 3 is an end-on view of the container fully assembled. Again, the bottom portion 4 integrates with middle portion 15 and closure means 16. The gas inlet 2 is shown next to the optional and additional gas inlet/outlet connector 3.
- FIG 4 one sees a cross-sectional view of the apparatus shown in Figure 1 but fully assembled.
- the numerals shown here are consistent with those used in Figure 1 for the various parts of the invention. Note that the cross- section of interior chamber 13 does not illustrate the components contained therein.
- Figure 5 one sees a preferred aspect in a schematic diagram of the apparatus shown in Figure 1 with a preferred valve which also forms part of this invention.
- gas source 40 is shown as entering line 41 that has a pressure relief valve 42 located therein.
- a particulate filter, preferably with a manual drain is shown as 43 to filter out any large particles that might be in the gas line.
- the gas goes through the filter 43 and into the desiccant filter 44 to remove water from the gas line.
- the gas preferably air, goes then into a manual regulator 45 and thence into line 47 where it goes through a valve 48 that allows the system to operate normally in one position (shown as normal operation or the "pressurized mode") and in the "powder fill” position, which allows the container shown as 51 to be filled by removing the closure means at the top of the container.
- valve 48 When valve 48 is closed, it also allows the system to vent by depressurizing container 51.
- the gas/particle stream flows through an additional filter 50, which captures the particles, to transmission line 49. Clean gas is then released through vent 152.
- Container 51 is pressurized by air or gas passing through the multi-positioned valve 48 and transmission line 52 to container 51, where the stream of gas having the suspended particles is formed and goes out the outlet line 5 la to the mixing chamber 62. At this point, additional gas can be added to the gas- particle stream to dilute the level of particulate matter in the stream.
- Gauge 53 registers the pressure in line 54 and 58. The gas goes through line 58 to needle valve 59 and through an additional filter 60 to line 61 as is needed. Filter 60 prevents backflow into valve 59.
- needle valve 59 will be a manually adjusted needle valve that will be adjusted on a time-to-time basis as needed.
- Valve 59 can also be pulse logic (referred to as "pulse-duty cycle control mechanism" in PCT Patent Application PCT/US96/06676 filed 9 May 1996, which is incorporated herein by reference), solenoid valve, or other electronic flow control means.
- pulse logic referred to as "pulse-duty cycle control mechanism" in PCT Patent Application PCT/US96/06676 filed 9 May 1996, which is incorporated herein by reference
- solenoid valve or other electronic flow control means.
- manual regulator 45 can also be achieved using an electronic control, pulse logic, a proportional valve, a pressure control means or a pressure regulator, all of which are contemplated by the instant invention.
- line 49 leads to an additional filter 50.
- this invention also contemplates line 49 leading to a 4-way manifold for distribution of the gas throughout the system.
- a manifold could be positioned on line 49 between valve 48 and filter 50 or, alternately, between filter 50 and container 51.
- the foot switch 55/valve 56 system is shown in Figure 5 as being at the end closest to the handpiece. This system can also be positioned between filter 43 and filter 44, or between filter 44 and manual regulator 45. Either of these positions is preferred when higher line pressure to valve 56 is desired to insure proper closure, particularly when valve 56 is a double acting pinch valve such as is shown in Figure 6 as valve 70.
- a key aspect of the configuration is combining the apparatus with a conduit means in fluid communication with the outlet passage and connectable to a handpiece and nozzle for directing the stream of the gas- particle suspension against a surface to abrade a portion of the surface.
- the combination will include a handpiece having a nozzle for directing the gas-particle stream against a surface, wherein the handpiece is connected to the outlet passage of the chamber by a transmission tube through which the gas-particle mixture flows, the transmission tube having a flow control means, such as a valve, therein to regulate the flow of the gas-particle stream therethrough.
- the transmission tube has (i) a junction upstream of the flow control means for mixing additional gas with the gas- particle stream to reduce the concentration of the gas-particle stream prior to reaching the flow control means.
- a junction downstream of the flow control means for a conduit having a second flow control means associated therewith to allow the gas-particle stream to drain from the transmission line when the first flow control means is closed and the second flow control means is open.
- This unit includes an unitary container, a gas inlet port leading into the container, and a pinch bar having a first contact side and a second contact side.
- Leading past the first contact side of the pinch bar is a first passage for a first flexible tube and leading past the second contact side of the pinch bar is a second passage for a second flexible tube.
- a tension means such as a spring (not shown) retains the pinch bar in a first position sufficient to pinch closed a first flexible tube in the first passage.
- a gas pressure actuatable means within the container moves the pinch bar from the first position to a second position sufficient to open the first flexible tube in the first passage and pinch closed the second flexible tube in the second passage.
- the pinch valve is combined with a pressurized gas source that is intermittently controllable and is connected to the gas inlet source.
- the double-acting pinch valve is shown as 70.
- it is a unitary container or valve that has a gas inlet port 71 leading into the container.
- a pinch bar 72 is associated with the container having a first contact side 73 and a second contact side 74 to the bar. While the pinch bar 72 is shown as substantially rectangular, it should be recognized that it could be circular, oval or polygonal in cross-section.
- the pinch valve has a first passage 75 for a first flexible tube 76 leading past the first contact side of the pinch bar.
- a second passage 77 for a second flexible tube 78 leading past the second contact side 74 is associated with the pinch bar.
- a tension means retains the pinch bar in a first position sufficient to pinch closed the first flexible tube 76.
- This tension means can be a spring designed to push or pull the bar into position.
- the valve has a gas pressure actuatable means within the container that, upon providing a pressurized gas to the gas inlet port 71, moves the pinch bar 72 from the first position closing tube 76 to a second position which opens tube 76 but closes tube 78.
- a gas/abrasive mixture would enter the line 76 in accordance with the arrow shown. If the pinch bar has closed tube 76 going through passage 75, then no gas/abrasive stream will flow to the handpiece.
- passage 75 opens and passage 77 and flexible tube 78 close, so the only flow will be to the handpiece.
- tube 78 is then opened and the residual pressurized gas/abrasive stream flows through tube 78 and into spent abrasive collection chamber 83.
- the collection chamber 83 is fitted with a filter element 84 that allows the gas to go out but retains the abrasive inside the container.
- the double- action pinch valve can be actuated by the use of a foot pedal which have a source of gas 82 which flows through line 81 to a foot pedal valve 80.
- valve 80 When the foot pedal is pressed to allow gas through the valve 80 and into line 79, it flows through inlet 71 to the double-acting pinch valve to force the pinch valve into a position opening tube 76 and allowing the air or gas/abrasive stream to flow to the handpiece.
- Valve 80 is also fitted with vent 146.
- the double-acting pinch valve of this invention has broad applicability for ensuring flow through only one of two adjacent, parallel, flexible tubes while flow through the other is shut off. While the pinch valve of this invention finds particular use with the gas abrasive apparatus described in detail herein, it can be used with any other gas abrasive dispensing apparatus known in the art.
- an apparatus for dispensing a pressurized stream of gas having particles suspended therein onto a surface would comprise a source of particles (51); a source of pressurized gas (52); a particle-mixing means (also 51), for combining the particles and pressurized gas to produce a gas/particle stream; a first flexible transmission tube (63) leading from the particle-mixing means (51) to a delivery means for delivering the gas/particle stream to the surface (shown here as a handpiece); and a double-acting pinch valve (56) positioned between (51) and the delivery means, and fitted with the first tube (63) and a second flexible transmission tube (66), which is joined to the first tube (63) at a junction (64) between valve (56) and the delivery means.
- the valve also has an activating means, shown here as a foot switch (55).
- a foot switch When valve (56) is activated and in a first position, the second tube is closed and the gas/particle stream flows through the first tube to the surface; and when valve (56) is not activated and in a second position, the first tube is closed and the gas/particle stream flows through the second tube and is vented, preferably to a waste container.
- the double acting pinch valve is a single unitary container 90.
- This unit includes a body tube 92 , a body plate 94 and a translation means 96, which moves downwards towards the plate during operation.
- Translation means 96 operates to move the pinch valve components along the length of the body tube 92, and can be, for example, a piston, pneumatic cylinder or an electronic solenoid.
- Translation means 96 is connected to a top pinch bar 100, for example, by a threaded hole 154, and is provided with a vent 150 and removable plate 148. Plate 148 facilitates assembly of container 90.
- Movable pinch bar 100 is associated with the container and has a first contact portion 102 and a second contact portion 104.
- the pinch bar can be of any desired shape such as rectangular, circular, oval or polygonal in cross-section.
- the pinch valve has a first passage 106 for a first flexible tube, not shown, which leads past the second contact portion 104 of pinch bar 100 and the first contact portion 120 of a top pinch seat 108.
- Pinch seat 108 is also in contact with the second contact portion 104.
- a fixed lower pinch bar 110 is also associated with the container, fitting into hole 116 in body tube 92 and held in place by hold means 112 and 114. This pinch bar can also be of any desired shape such as rectangular, circular, oval or polygonal in cross-section.
- the first contact portion 122 of pinch bar 110 is in contact with the second contact portion 124 of seat 108.
- the pinch valve also has a second passage 118 for a second flexible tube, not shown, which leads past the second contact portion 126 of pinch bar 110 and the first contact portion 128 of a lower pinch seat 130.
- Pinch seat 130 is also in contact with the second contact portion 126.
- the single unitary container 90 is shown in assembled cross-section.
- the first flexible tube 134 in first passageway 106 would lead to a spent abrasive collection chamber and the second flexible tube 136 in second passageway 1 18 would function to carry the air/abrasive particles to the handpiece.
- a first tension means 138 is associated with translation means 96 and retains the translation means in a first position sufficient to maintain pinch bar 100 to hold open the first flexible tube 134.
- a second tension means 132 retains pinch seat 130 in a first position sufficient to hold closed the second flexible tube 136 by pinching it against pinch bar 110.
- Tension means 132 and 138 are shown as springs, but may be other equivalent devices.
- valve 90 has a gas pressure actuatable means that, upon providing a pressurized gas to the gas inlet port 98, moves translation means 96 from its first position to a second position sufficient to compel pinch bar 100 to pinch closed the first flexible tube 134 and to simultaneously move pinch seat 130 to a second position, causing pinch seat 130 to no longer be in contact with pinch bar 110, and open the second flexible tube 136.
- pressurized gas would enter port 98, moving translation means 96 to its second position, closing passage 106/flexible tube 134 and opening passage 118/flexible tube 136 such that the gas/abrasive stream will flow to the handpiece.
- passage 106/tube 134 opens and passage 118/tube 136 close, and flow to the handpiece ceases.
- tube 134 is then opened and the residual pressurized gas/abrasive stream flows through tube 134 and into a spent abrasive collection chamber.
- the collection chamber would be fitted with a frit that allows the gas to go out but retains the abrasive inside the container.
- translation means 96 also maintain pinch seat 108 in contact with pinch seat 130, such that pinch seat 130 is not in contact with pinch bar 110 and flexible tube 118 remains open.
- pinch seat 108 ceases to exert pressure on pinch seat 130, allowing seat 130 to come into contact with pinch bar 110 and pinching flexible tube 118 closed.
- pinch seat 108 ceases to be in contact with pinch bar 100 and flexible tube 134 opens.
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- Health & Medical Sciences (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Dentistry (AREA)
- Epidemiology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Dental Tools And Instruments Or Auxiliary Dental Instruments (AREA)
Abstract
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09/445,101 US6277003B1 (en) | 1998-05-28 | 1998-05-28 | Gas abrasive particle apparatus and valving therefor |
AU77082/98A AU7708298A (en) | 1997-05-30 | 1998-05-28 | Gas abrasive particle apparatus and valving therefor |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US4830697P | 1997-05-30 | 1997-05-30 | |
US60/048,306 | 1997-05-30 |
Publications (1)
Publication Number | Publication Date |
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WO1998053954A1 true WO1998053954A1 (fr) | 1998-12-03 |
Family
ID=21953839
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US1998/011040 WO1998053954A1 (fr) | 1997-05-30 | 1998-05-28 | Appareil produisant un flux gazeux de particules abrasives et systeme de regulation associe |
Country Status (2)
Country | Link |
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AU (1) | AU7708298A (fr) |
WO (1) | WO1998053954A1 (fr) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2016142272A1 (fr) * | 2015-03-06 | 2016-09-15 | Ferton Holding S.A. | Appareil à jet de poudre |
CN112107381A (zh) * | 2020-10-21 | 2020-12-22 | 桂林市啄木鸟医疗器械有限公司 | 一种电磁夹管阀及洁牙装置 |
Citations (10)
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US2814877A (en) * | 1955-07-11 | 1957-12-03 | William F Tilden | Abrasive applicator |
US3139705A (en) * | 1962-12-10 | 1964-07-07 | Histed Howard | Sandblast machine with precision sandfeed, remotely started and stopped |
US3149759A (en) * | 1962-09-13 | 1964-09-22 | Corning Glass Works | Apparatus for feeding powder |
US3344524A (en) * | 1964-05-05 | 1967-10-03 | S S White Company | Apparatus for storing and delivering abrasive and non-abrasive powders |
US3631631A (en) * | 1970-01-21 | 1972-01-04 | Dental Gold Co | Pneumatic abrasive cutting apparatus |
US3852918A (en) * | 1972-03-29 | 1974-12-10 | R Black | Gas-abrasive mixing and feeding device |
US4067150A (en) * | 1975-11-03 | 1978-01-10 | Argonite, Inc. | Sandblast abrading apparatus |
US4487582A (en) * | 1983-02-18 | 1984-12-11 | Cooper Lasersonics, Inc. | Dental cleaning system |
US4708534A (en) * | 1983-09-30 | 1987-11-24 | Airsonics License Partnership | Particle feed device with reserve supply |
US5350299A (en) * | 1992-03-27 | 1994-09-27 | American Dental Technologies, Inc. | Dental treatment system |
-
1998
- 1998-05-28 AU AU77082/98A patent/AU7708298A/en not_active Abandoned
- 1998-05-28 WO PCT/US1998/011040 patent/WO1998053954A1/fr active Application Filing
Patent Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2814877A (en) * | 1955-07-11 | 1957-12-03 | William F Tilden | Abrasive applicator |
US3149759A (en) * | 1962-09-13 | 1964-09-22 | Corning Glass Works | Apparatus for feeding powder |
US3139705A (en) * | 1962-12-10 | 1964-07-07 | Histed Howard | Sandblast machine with precision sandfeed, remotely started and stopped |
US3344524A (en) * | 1964-05-05 | 1967-10-03 | S S White Company | Apparatus for storing and delivering abrasive and non-abrasive powders |
US3631631A (en) * | 1970-01-21 | 1972-01-04 | Dental Gold Co | Pneumatic abrasive cutting apparatus |
US3852918A (en) * | 1972-03-29 | 1974-12-10 | R Black | Gas-abrasive mixing and feeding device |
US4067150A (en) * | 1975-11-03 | 1978-01-10 | Argonite, Inc. | Sandblast abrading apparatus |
US4487582A (en) * | 1983-02-18 | 1984-12-11 | Cooper Lasersonics, Inc. | Dental cleaning system |
US4708534A (en) * | 1983-09-30 | 1987-11-24 | Airsonics License Partnership | Particle feed device with reserve supply |
US5350299A (en) * | 1992-03-27 | 1994-09-27 | American Dental Technologies, Inc. | Dental treatment system |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2016142272A1 (fr) * | 2015-03-06 | 2016-09-15 | Ferton Holding S.A. | Appareil à jet de poudre |
CN107427337A (zh) * | 2015-03-06 | 2017-12-01 | 福尔顿控股公司 | 粉末喷吹装置 |
CN107427337B (zh) * | 2015-03-06 | 2020-08-25 | 福尔顿控股公司 | 粉末喷吹装置及用于粉末喷吹装置的接合单元 |
US11109943B2 (en) | 2015-03-06 | 2021-09-07 | Ferton Holding S.A. | Powder-blasting device |
CN112107381A (zh) * | 2020-10-21 | 2020-12-22 | 桂林市啄木鸟医疗器械有限公司 | 一种电磁夹管阀及洁牙装置 |
Also Published As
Publication number | Publication date |
---|---|
AU7708298A (en) | 1998-12-30 |
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