37 C.F.R, § 1.71 (e) AUTHORIZATION A portion of the disclosure of this patent .document contains materia! which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the t n document or the patent disclosure; as it appears in the US Patent and Trademark Office patent file or records, hat otherwise reserves all copyright rights whatsoever.

ROSS-REFERENCE TO RELATED APPLICATIONS, IF ANY

This application claims the benefit under 35 U.S.C. § 1 19(e) of co-pending US Provisional Patent Application Serial No.62/ ^" i04J 4 ^' i, filed Januar 16, 201 , which is hereby incorporated by reference.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH O DEVELOPMENT appiseabie. REFERENCE TO A MICROFICHE APPENDIX,. IF ANY

Not applicable.

BACKGROUND

1. Field.

The present invention relates, generall , to dental apparatus and methods. More particularly, the invention relates to dental drills, irrigators and air supplies. Most particularly, the invention relates to a system, apparatus and. methods for providing drive . coolant, and irrigation liquids in a dental hand piece. The techniques of the invention can also be used in other fields such as medical apparatus and methods.

2. Background Information.

Dental hand pieces may provide means for drilling, drilling coolant, irrigation, .mist air. asr. and combinations thereof. A problem which can occur in apparatus is backflow of saliva, blood, bacteria or other liquids from the month of the patient into the reservoir which houses the coolant. Disposable or serialkabie containers may aid in avoiding such transfer of contaminated material. Some microorganisms, including those found on dental hand pieces maybe resistant to chemical disinfection. Therefore, autoclave (heat -and pressure) disinfection or sterili ation is desirable. A complete hand piece system, including the Hand piece. Water Line ami Water/Water Container, that is amenable to autoclave disinfection and. use in the sterile zam is desirable. It. is particularly beneficial that the entire system be operable by the use with gloves on.

Existing technology in this field is believed to have significant limitations and shortcomings,

All US patents and patent applications, and all other published documents mentioned anywhere in this application are hereby incorporated by. reference in their entirety.

BRIEF SUMMARY

The present invention provides a dental air and water supply system, apparatus and methods which are practical reliable, effective and safe, and which are believed to constitute an improvement over the background technology.

The invention provides a heat sterizable, independent dental water supply apparatus. The apparatus includes a hand piece control head and a wafer supply container removably connected to the control head. The apparatus, in connechbte with a dental band iece _* an air source and a _. controller suc as a .dental foot pedal In use, the apparatus supplies sterile irrigation water at. i e liane piece under the control of a dental practitioner. The apparatus is particularly useful of oral surgeons, prosthodontists and other dental specialists.

The invention also provides methods of making and using the apparatus of the invention.

The present invention is believed to involve novel elements, combined in n el ways to yield more than predictable results. The problems solved by the invention were not fully recognized m the prior an.

The aspects, features, advantages, benefits and objects of the invention will become clear to those skilled in the art by reference to the following description, claims and drawings,

BRIEF DESCRIPTION OF THE SEVERAL VIEW OF THE DRAWING

The present invention, and the manner and process of making asd using it will he better understood by those skilled in the art by reference to the following, drawings. Figure 1 is a perspective view ^' efo»e em odimen of a heat serializable, independent denial water supply apparatus of the pr se t invention.

Figure 2 is a front elevation view of the apparatus.

Figure 3 is a side view of the apparatus.

Figure 4 is an opposite side view of the apparatus.

Figure 5 is a top view of the apparatus,

Figure 6 is a bottom view of the apparatus.

Figure 7 is an exploded view of a portion of the apparatus.

Figure 8 is a diagram of a Prior Art AQUASFPT denial water supply .apparatus manufactured by Applicants' assignee. Genesis Dental Technologies of Hudson, Wisconsin USA. disclosed in US Patent 8,123,522,

Figure 9 is a diagram of the denial water supply apparatus of Figures I ~7 _f illustrating some structural and functional distinctions relative to the Prior Art apparatus of Figure 8. Figure 10 is a diagram of an embodiment of an air- .act ated pilot valve feature of the apparatus of Figures 1 -7, in a normally dosed position.

Pigure I l is a diagram of the pilot valve of Figure 10 in an actuated position facilitating sterile water flow to a dental hand piece.

Figure 12 is a diagram of a basic embodiment of a dental water supply system including denial water controller of Figures 1 -7 with a conventional air or electric powered dental hand piece including a drill and drive system therefor.

Figure 13 is a diagram of another basic embodiment of a dental water supply system including dental water controller of Figures 1-7 with an ultrasonic sealing band, piece and drive system therefor.

Figure 14 is a diagram of an embodiment of a dental system including the dental -water controller of Figures 1 ~7 retrofitted with a dental hand piece and dental control unit wherein the hand piece drive s located inside the dental control unit, and -wherein a. foot pedal control, includes both a main pedal and a chip air button, wherein irrigation operates with the main pedal or the chip air button,

Figure 15 is a diagram of another embodiment of a dental system including the dental water controller of Figures 1-7 retrofitted with a denial hand piece and denial control unit wherein the hand piece drive is located inside the denial control unit, and wherein a foot pedal control includes a main pedal onl , wherein the main feci pedal operates bot hand piece drive and irrigation.

Figure 16 is a diagram of a further embodiment of a denial system including the denial water controller of Figures 1 -7 retrofitted with a dental hand piece and dental control unit wherein the hand piece drive is located inside the dental control unit, and wherein a foot pedal control includes both a main pedal and a chip air button, wherein the main pedal operates the hand piece and the chip air button operates irrigation.

Figure 1? is a diagram of yet another embodiment of a dental system Including the dental water controller of Figures 1 -7 retrofitted with a dental hand piece and dental -control, unit wherein the hand piece drive is located outside the dental control unit, and wherein a foot pedal control includes both a main pedal and a chip air button, wherein the main pedal operates the hand piece and the chip air button operates irrigation.

Fi ure 18 is a diagram of a still ^' further- ern-bodnneni of a dental system including the dental water controller of Figures 1 -7 retrofitted with a dental hand piece and dental control unit wherein the hand piece drive is located outside the denial control unil, and wherein a foot pedal control includes both a main pedal and a chip air batten, wherein irrigation operates with the main pedal o.r the chip air button.

Figure 19 is a diagram of still another embodiment of a denial system including the dental water controller of Figures 1 -7 retrofitted with a denial hand piece and dental control unit wherein the hand piece drive is located outside the dental, control unit; and wherein a foot pedal control includes a main pedal only, wherein the main foot pedal operates both hand piece drive and irrigation.

Figure 20 is a diagram of an embodiment of a denial system including a 3 way embodiment ^' of a denial water controller, retrofitted for a .denial control unit for a CAVITRO GEN- 1.24 ultrasonic sealer hand piece.

Figure 21. is a diagram of an embodiment of a denial system incl uding a. 2 wa and. a 3 way embodiment of a dental water controller retrofitted for a dental control unit for a CAVITRON GEN- 131 ultrasonic scaler hand piece.

Figure 22 is a perspective view of 2 way embodiment of the den tal, water supply apparatus of the present invention, including an air/water syringe therewith, figure 23 is a diagram of an embodiment of a dental water control system including fluid disposed in an IV Bag type apparatus, wherein a pressure cuff pressurized he I V Bag to provide fluid iiowio a dental hand piece under the control of aa actuating val e (foot pedal controlled).

DETAILED DESCRSP

The system of the present invention optimally delivers sterile water to dental hand pieces. A prior water supply system of applicants ^* assignee, Genesis Dental Technologies of Hudson, Wisconsin USA provides sterile water only to high speed drills and ai wa e syringes, -However, many dentists and other practitioners use surgical hand pieces other than high speed drills, for example during oral surgery. These surgical hand pieces typically utilize water as a coolant provided through a sterile IV hag and irrigation, tubing. The irrigation tubing is typically connected to an irrigation nozzle disposed on the surgical hand piece.

Referring to Figures 1-7, a first embodiment of the heat serializable, independent denial water supply apparatus 10 of the present invention comprises a hand piece control head 12 , a removable water container Or bottle 14 connected to the head 12 -via an adapter 18, and an air activated pilot valve 16. The head 12 is constructed ^' of a body 20 _? a cover 22 and a diaphragm 24 disposed between the body 20 and cover 22. The head 12 has an internal, structure that is identical to the liquid, coolant supply unit 51 disclosed in US Patent 8,123, 522 to Vanies, ^• entitled Dental Hand piece Fluid Supply ^■ Technology, which issued February 28, 20)2. This . _. patent is owned ^' , by applicants' assignee. Genesis Denial Technologies <GDT), and a controller is manufactured and supplied by GDT under the mark AQtiASEPT, The disclosure of the Vames patent is hereby incorporated by reference. The liquid coolant, supply unit 51, is best shown in Figures 4-8, and described in column 4, line 42 to column 6. line 39 of the '522 Varnes patent (hereinafter. Vames Structures}.

As is best shown in Figure 7 _} the body 20 has an O-ring 26 for sealing connection with the adapter 18. il ls within the purview of theTnventkm ihat the head 12 may he connected directly to the container 14: without the use of an adapter. A sterile water hose barb 28 extends downwardly from the body 20 for coupling to a sterile water input hose 30.

The head 12 further has a coupler 32 for connecting the air pilot valve 1 , a plug 34, a needle valve 36, an air inlet fitting 38, and a plug 40. The coupler 32 is connected to and replaces the Vames exhaust port 35, The plug 34 replaces the Vames liquid exit fitting 31. The valve 36 rs equivalent to the Varaes liquid flow adjuster screw 55. Fitting 38 replaces the Varaes gas input fitting 43. And plug 40 repl ces the Varoes gas exit fitting 46. eierrmg also to Figures 1 and 11, the air pilot valve has a cylindrical body 17 with an air inlet 19, a water inlet 21 and a water outlet 23. T lumen extends longitudinally the- ^' lengthof t e ^' body 17 and includes a first chamber 25, a second (middle) chamber 27 and a third chamber 29, A first, .major piston 31 is movabiy disposed in the first chamber 25, A shaft 33 extends torn the first piston 1 and is coupled to spaced apart, second, minor pistons 35A and 35.B, which are rnovabiy disposed in the second chamber 27, A spring 37 is disposed in the first chamber, axially with the shaft 33 and biases the first piston 3 i. Figure 10 shows the air activated pilot valve 16 m its normal, closed position. Figure 11 shows the valve 16 when actuated. Returning to .Figure 7, air irdet fitting 42 couples air hose 44 to the inlet 1 . Water outlet fitting 46 couples outlet 23 to water supply hose 48.

Figures 8 ami 9 illustrate the differences in structure and function between the Vames - AQUASEPT controller 50 and the controller ! 0 of the present invention. Referring first to Figure 8, the AQUASEPT controller 50 (Vames 51 ) has a bead 52, connected to sterile water suppl bottle 54, a d actuation pedal 36. The ^' head 52 comprises body 60 (Vames 20), cover 62 (Vames 2.1 ), and diaphragm 64 (Vames 22). Air Inlet, is at Pomt A, via connector 78 (Vames 43) to loot pedal 56. Air Outlet is at Point 8 via post 80 (Vames 46). Venting is at Point G via vent 74 (Vara 35), Water Outlet is at Point D via port 72 (Varnes 31.).. And Water Inlet from bottle 54 is at tube 70 caused by pressure in Area E (Varnes 32), I a typlcai operation, when the foot pedal is released, air pressure is relieved at points A, B and C< This releases air pressure off of the diaphragm 64, which terminates water exiting at point D. When the foot pedal is

Π actuated, air drives the hand piece at point f and pressurizes bottle enclosure arm E, which .causes, water to exit a point D.

R ferring next to Figure 9, in the ^' hand piece control head 10 of the present invention, Air Inlet s at Point L from foot pedal 90. Port 80 is sealed at Point M by plug 40. Venting at port 74 is sealed at Point N by plug 34, Water Outlet is ai Point 0 via the air pilot valve 1.6. A second Air Inlet is ai Point Q via the air pilot valve i 6, And the bottle 14 is pressurized at Point P. in a typical use, constant air ressure is applied at point I, which pressuriit.es d e bottle at point P. Plugs at points M and N keep pressure on the diaphragm 24. Depressing the foot pedal 90 actuates the: air pilot valve 16 at Point Q ₄ which allows water to flow up through, the tube 30, exiting at Point O. This provides an advantage over the prior art AQUASEPT device 50 because only water is supplied with full control via the foot pedal. A toggle switch can be added so that the foot pedal can. still activate a hand piece, yet otter flexibility to have irrigation on or off. This is especially beneficial in the case of dental implant procedures cond ucted by prosthodontists and other practitioners.

Figure 12 illustrates a common connection of the dental water supply apparatus 10 deployed with a conventional electric or other hand piece 94 to provide on/off flexibility, Foot pedal 90 includes a main pedal 1 thai turns the hand piece on and off. Foot pedal 90 also includes a chip air button 92 which turns irrigation on and off. Foot pedal is connected to hand piece drive box 93, which, h eo rranueativeiy connected to the ^' hand piece 94. foot pedal 90 is also connected to the denial water supply apparatus 10. which has a water Ike connection to the hand piece 94,

Figure 13 illustrates a c mmon connection of the dental water supply apparatus 10 deployed with an ultrasonic hand piece 104 such as a CAViTRO ^' N scaler. Devices of this type .require eontrnuons water supply. Fool pedal 100 includes a main pedal f 01 that turns the hand piece 104 on and of Foot pedal 100 also includes & chip air button 102 which turns irrigation on and off. Foot, pedal 100 is connected to ultrasonic scaling unit, via air eieciric switch 105, which is co.rnjmimicatively connected to the ultrasonic scaler 104. Foot pedal Ί 00 is also connected to the dental water supply apparatus 10. which has a water line connection to the hand piece 104,

Figure 1.4 is a diagram of an embodiment of a dental system including the dental water controller 10 of Figures 1-7 and 9 retrofitted with a dental hand piece .121 and dental control unit 110 wherein the hand piece drive 1 19 is located inside the dental control, unit i 10, and wherein a loot pedal control includes both a main pedal 11 and a chip air button 115, wherein irrigation i provided by the main pedal Π 3 or the chip air button 11.5, A main air source provides air via line 1 1 1 to the hand piece control head 12 at air inlet 38 via inline regulator 1 18, for example at approximately 35 psi. Device motor 1 19 is connected to the .hand piece 121 via line 122 and also to the air inlet 42 of the air pilot valve 1 16 via line 120, The water outlet 46 s connected to the hand piece 121 via line 48 to adapter 123, ^« Foot pedal is connected to the air source via connected line 112. Pedal 1 13 air and chip air 1 35 are connected to the air pilot valve 16 via lines 1 1 and 1 16 respectively through respective check valves 1.11 A and B. Elements shown in the shaded blue area are components that may he easily sterilized between procedures, ensuring safe, sterile delivery of irritant to ail patients. figure IS is a diagram of another embodiment of a dental system including the dental water controller 10 retrofitted with a dental hand piece 13? and dental control unit Ϊ 30 wherein the hand piece driv 1 6 is located inside the dental control unit 130, and wherein a foot pedal control includes a main pedal. 1 3 only, wherein the main loot pedal 133 operates both hand piece 137 drive and irrigation, A main air source provides air via line 131 to the hand piece control head 12 at air inlet 38 via inline regulator 135, tor example at approximately 35 psi. Device motor 136 is connected to the hand piece 137 via line 134 and also to the air inlet 42 of the air pilot valve 1 16, The water outlet 46 is connected to the hand piece 137 via line 4$ to adapter 139,- Foot pedal 133 is connected to the air source via connected line 132. Pedal 133 air is connected to the air pilot valve 16 via line 134.

Figure 1¾ is a diagram of a -farther embodiment of a dental system including the dental water controller 1 retrofitted with a dental hand piece 1.49 and dental control unit 140 wherein the hand piece drive 1 8 is located inside the dental control unit I4i\ mi wherein a foot pedal control ncludes both a main pedal .1 3 and a chi air button 145, wherein the main pedal 143 operates the hand piece 149A and the chip air button 145 operates irrigation. A main air source provides air via line 141 to the hand piece control head 12 at air inlet 38 via inline regulator 147, for example at approximately 35 psi. Device motor 148 is connected to the hand piece 14 A via line 149B and also to the foot pedal via line 144. The water outlet 46 is connected to the hand piece 1 9A via line 48 to adapter 149C- Foot pedal is connected to the air source via connected line 142. Chip air 1 5 is connected to the air pilot valve 16 via line 146.

Figure 17 is a diagram of yet another embodiment of a dental system including the dental water controller 10 retrofitted with, a dental hand piece 162 and derstal control unit 150 wherein the hand piece drive 159 is located outside the dental control unit 150, and wherein a foot pedal control includes both a main pedal 153 and a chip air button 155, wherein the main pedal 153 operates the hand piece 162 and the chip air button 155 operates irrigation. A main air source provides air via line 15 1 to the hand piece control head 12 at air inlet 38 via inline regulator 157, for example at approximately 35 psi. Device motor 15 is connected to the hand piece 162 via line 161. The water outlet 46 is connected to the hand piece 162 via line 4.8 to adapter 163,- Foot pedal is connected to the air source vis connected line 152, Pedal 153 air is connected to the external device dnve 159 via a foot pedal retrofit kit 158 and cable 160. Chip ai 1 55 is connected to the air pilot valve 16 via line 156. f¾»re ί¾ is a diagram of a still ikiher embodiment of a dental system including the dental water controller 10 retrofitted with a dental hand niece ! 85 and dental control unit 1 70 wherein the hand piece drive 1 S3 is located outside the dental control unit 170, and wherein afo t pedal control includes both a main pedal 173 and a chip air button 175, wherein irrigation operates -with the main pedal i 73 or the chip air button 175. A main air source- provides air via line 171 to the hand piece control head 12 at air inlet 38 via inline regulator 178» for example at approximately 35 psl External device motor 183 is connected to the hand piece 185 via line 184, The water outlet 46 is connected to the hand piece 1185 via line 48 to adapter 1 So,- Foot pedal is connected to the air source via connected line 172. Pedal i 13 air is connected to the drive 185 via retrofit kit I 8 I (and cable 182} by line 174 through check valve 1.77 A. Chip air 1 5 is also to the retrofit kit 181 via ike 176 (through check, valve Π7Β), which is also connected to the air pilot valve 16 via line 180,

Figure 19 is a diagram of still another embodiment of a dental system including the dental water controller 10 retrofitted with a denial hand piece 202 and dental control unit 1 0 wherein the hand iece drive 200 is. located outside the dental control unit 190, and wherein a foot pedal control, includes a main pedal 193 only, wherein the main foot pedal 1.9.3 operates both hand piece 202 drive and irrigation, A main air source provides air via line 1 191 to the hand piece control head 12 at air inlet 38 via inline regulator 197, tor example at approximately 35 pai. External device motor 200 is corrected to the hand piece 1202 via One 2 1. The water outlet 46 is connected to the hand piece 202 via line 48 to adapter 203.- Foot pedal 1 3 is connected to the air source via connected line 192. Pedal 1 3 air is connected, via line 194, to the driver 200 through retrofit kit 1 8 (and cable 199), and further via line 1 6 to the air pilot valve 16.

The water supply apparatus 10 will also work m conjunction with an ultrasonic device such as a scaler. Other adaptations of the device may permit operation of a piezo, electric motor (or any device that utilizes an on/off foot pedal), that is separate (or built ^■ ink)} a dentai unit, and improve performance with the existing dental unit loot pedal, This permits a dentist to utilize their equipment by eliminating the apparatus foot pedal. By doing this, the system is act ratable simultaneously. This permits provision of water to the apparatus hand piece simultaneously. Thereby, the journe of water from the source io the hand piece is seamless. An end result is that the dentist is able to utilize their equipment and provide lull water control with Aqua Sept without any perceivable limitation. Figure- 20 is a diagram of an embodiment of a dental system including a 3 way embodiment of a dental water controller retrofitted for a dental control unit for a CAVITRON O EN- 124 ultrasonic scaler hand piece., Control box 210 has a Toggle (chip air) connection A, a foot pedal connection EL a connection for the water supply apparatus 10 (1 and a Cavitron connection D. Interconnected components by the lines and destinations include a two way controller 21 1 (input 212. output 21 , and actuator .214), an adjustable regulator 215. and air/electric switch 216. Mg«r« 21 is a diagram f an embodiment of a dental system including a 2 way and a 3 way embodiment of a dental water controller retrofitted for a dental control unit for a CAVURQN GEN-13 [ultrasonic scaler hand piece. Control box 220 has a Cavuron connection A, a water supply 1 connection B, a boost connection C. and a main air connection P, and a toggle connection E, interconnected components by the lines and destinations include a 2 way air pilot device 221 (input 222, _. output 223, actuator 224). a 3 way air pilot mechanism 225 (input 226. output 22?, and actuation 228), _. an adjustable regulator 229, a check valve 230, switches 231 and 232 and T connections 233, 234 and 235.

Figure 22 is a perspective view of 2 way embodiment: of the dental water supply apparatus of the present invention, including an air/water syringe therewith. The apparatus 250 has a head 25 with a body 254, cover 256 and diaphragm 258, and a hand piece 272. The head 25 further comprises connector barbs 260A/B, air in fitting 262, hand piece fittings 264 and 26 _. 6, .hoses 268 and 270, plugs 274 and 276, and connector 268.

Referring to Figere 23, an embodiment of the system which utilizes an IV bag or the like for a sterile water source is shown. This embodimento.ff.he system has a direct source air line and a regulator. An a iociavable valve is disposed before the point where the fv line goes ittto the hand piece adapter. This permits regulation of the flow of irrigant to the hand piece. And, an air pilot valve is disposed before the valve. The air pilot receives air from the foot pedal (chip m and regular air) which turns on a d off the flow i irrigant to the band piece. The system 300 ncludes arhand piece 302 with drive line 304, an air source 306 connected to a pressure cuff 3 i 0 through a regulator 308, an IV bag 312 disposed in the cuff 3 i 0 and hang by hanger 314, IV lirse ! 6 runs to actuator 318 which is. connected to pedal 19, and then to the hand piece 302 through flow control device 320,

^' Fhe system of the present invention replaces the prior art. IV bag and tube system used by oral surgeons and other specialist dental practitioners. The system can apply to any hand piece that has an auiockvable adapter for disposable tubing to attach, i.e. ultrasonic scaling, implant drills, etc The system provides foot pedal control and fluid volume control. The system permits retrofitting dental unit wjih a simple to use sterile delivery for ail hand pieces is now available. In contrast, the prior IV bag system with peristaltic pump is cumbersome, requires maintenance, and limited space is available tor the pomp.

All components are autoc!avable. To achieve this, the system is compact and detachable. The system works by utilizing air to pressurise a water bottle and run hand piece at the same time,. To. run a high speed drill a diaphragm is: pressurized causing -a water reservoir to fill, allowing a controlled level (needle valve) of water to di charge through a barb. The air merely passes over this diaphragm to keep pressure applied, and is exited through a barb to run a hand piece, By re la ng fee IV bag system the practitioner has more control of sterile irrigation, The has Ml control of an .electric hand piece and is able to turn on and off irrigation utilizing the chip air function of their foot pedal. For the first time ever, the doctor can now run a hand piece without requiring an assistant to control the irrigation. The doctor now has Mi control of when and ho w much irrigation for each procedure. And. the entire system can be autociaved ^' between patients, allowing for sterile delivery,

The embodiments above are chosen, described and illustrated, so that persons skilled in the art will be able to understand the invention and the manner and process of making an -using it. The descriptions and the accompanying drawings should be interpreted in the illustrative and not the exhaustive or limited sense. The invention is not intended to be limited to the exact forms disclosed. While the application attempts to disclose all of the embodiments of the invention that are reasonably foreseeable, there may be unforeseeable insubstantial

.modifications thai remain as equivalents,. It should be understood by persons skilled in the art that there may be other embodiments than those disclosed which fall within the scope of the invention as defined by the claim. Where ¾ claim, if any, is expressed as & means or step for-perfor iag.s specified function it is- intended that such claim be construed to cover the corresponding structure, material, or cts described in the specification and equivalents thereof, including both structural equivalents and e ivalent structures, material -based equivalents ^■ and : equivalent materials, arid act-based equivalents and e uivalent acts.

CLAIMS

The invention claimed is:

1. A denial water supply apparatus tor use with a dental hand piece, comprising a hand piece control, head adapted to he connective to an air supply, ^■ an actuator, and a. denial hand piece, the control head including an air actuated pilot valve; and a removable water supply container,, the container supplying water to the hand piece control head.

2. The denial water supply apparatus of claim 1, wherein the hand piece control head is constructed of heat resistant materials so that it is autoclavable.

3. The denial wate supply apparatus of claim I , wherein the hand piece control head includes a body, a diaphragm disposed on the body, and a cover, disposed on the diaphragm.

4. The dental-water supply apparatus of claim 3, wherein the cover is adapted to be connected, to an air supply, wherein the pilot val ve is adapted to be connected to an air supply of an actuator, and wherein the body receives water IVom the container and distributes it to the pilot valve tor iransrmssion to the hand piece. .5. The dental water supply, apparatus of cla m 1 , further comprising an actuator and a dental hand piece.

6. The dental ater su pl apparatus of claim 5, forther comprising an air supply.

7. The dental water supply apparatus of claim 5 farther comprising a hand piece drive mechanism.

ABSTRACT OF THE DISCLOSURE

A heat sterizable, independent dental water supply apparatus has a hand piece control head and a water supply container removably connected to the control head. The apparatus in eormeciible with a dental hand piece, m air source and a controller such as a dental toot pedal In use, the apparatus supplies sterile irrigation water at the hand piece under the control of a denial practitioner. The apparatus is particularly useful of oral surgeons, prosthodontists and other dental specialists. Methods of making and using the apparatus are also disclosed.

The following attorney's file identification forms m part .of the disclosure or claims of this appika!iOK; OSRegAppPtLBXte