TECHNICAL FIELD OF DISCUSSION
The present invention relates to methods and apparatus for producing permanent dentures without using any implants (screws) on the jaws bones or glue but using the vacuum of suction cells (suckers), between the natural jaws and normally made dentures but using flexible plastic (approved by FDA of USA) sheath between the jaws and the dentures using suckers (similar to octopus or Squid or leeches Suckers) made on upper and lower surfaces of the sheath surfaces.
BACKGROUND OF THE INVENTION
Dentures, also known as false teeth, are devices constructed to replace missing teeth, conventional dentures are removable (removable partial denture or complete denture). However, there are many denture designs, some which rely on bonding or gluing on to the jaws or dental implants (fixed using screws into the jaws bones).
Patients can become entirely (without teeth) for many reasons, the most prevalent being removed because of dental disease, and tooth decay.
Dentures can help patients through:
A) Chewing
B) Aesthetics, appearance to the face
C) Pronunciation,
D) Self-esteem,
Removable partial dentures; are for patients who are missing some of their teeth on a particular arch. Fixed partial dentures, also known as “crown and bridge” dentures, are made from crowns that are fitted on the remaining teeth. Complete dentures are worn by patients who are missing all of the teeth in a single arch (upper) or (lower) arch) or, more commonly, in both arches, upper and lower alike. The process of fabricating a denture FIG. 33 usually begins with an initial dental impression of the maxillary and mandibles ridges. Standard impression materials are used during the process. The initial impression is used to create a simple stone model that represents the maxillary and mandibles arches of the patient's mouth. This is not a detailed impression at this stage. Once the initial impression is taken, the stone model is used to create a ‘Custom Impression Tray’ which is used to take a second and much more detailed and accurate impression of the patient's maxillary and mandibles ridges. A wax rim is fabricated to assist the dentist or denturist in establishing the vertical dimension of occlusion. After this, a bite registration is created to marry the position of one arch to the other.
Once the relative position of each arch to the other is known, the wax rim can be used as a base to place the selected denture teeth in correct position. This arrangement of teeth is tested in the mouth so that adjustments can be made to the occlusion. After the occlusion has been verified by the dentist or denturist and the patient, and all phonetic requirements are met, the denture is processed.
Processing a denture is usually performed using a lost-wax technique whereby the form of the final denture, including the acrylic denture teeth, is invested in stone. This investment is then heated, and when it melts the wax is removed through a sprung channel. The remaining cavity is then either filled by forced injection or pouring in the uncured denture acrylic, which is either a heat cured or cold-cured type. During the processing period, heat cured acrylics—also called permanent denture acrylics—go through a process called polymerization, causing the acrylic materials to bond very tightly and taking several hours to complete. After a curing period, the stone investment is removed, the acrylic is polished, and the denture is complete. Support principles; Support is the principle that describes how well the underlying mucosa (oral tissues, including gums) keeps the denture from moving vertically towards the arch in question during chewing, Stability; Stability is the principle that describes how well the denture base is prevented from moving in a horizontal plane, and thus sliding from side to side or front to back. Retention; Retention is the principle that describes how well the denture is prevented from moving vertically in the opposite direction of insertion. Fit, maintenance, and relining Generally speaking partial dentures tend to be held in place by the presence of the remaining natural teeth and complete dentures tend to rely on muscular co-ordination and suction to stay in place Dentures that fit well during the first few years after creation will not necessarily fit well for the rest of the wearer's lifetime. This is because the bone and mucosa of the mouth are living tissues, which are dynamic over decades, when dentures no longer fit well; the correct action is to seek follow-up care. Using denture adhesive may improve the fit, but it tends to work better when only a small amount is used as covering the denture fitting surface in adhesive makes it stay in less well. Adhesives may compensate for gradual loosening of a denture, but it is only a temporary solution; Complications and recommendations the fabrication of a set of complete dentures is a challenge for any dentist/denturist.
A lower complete denture should or must be supported by two to four implants placed in the lower jaw for support. An implant-supported lower denture is far superior to a lower denture without implants, because: it is much more difficult to get adequate suction on the lower jaw.
The functioning of the tongue tends to break that suction, and without teeth the ridge tends to resort and provides the denture less and less stability over time. It is routine to be able to bite into an apple or corn-on-the-cob with a lower denture anchored by implants. Without implants, this is quite difficult or even impossible
SUMMARY OF THE INVENTION
The present invention relates to methods and apparatus for producing permanent denture without using any implants (screws) on the jaws bones or glue but using the vacuum of suction cells (suckers), (similar to Leeches or to octopus &squid suckers on their arms FIG. 1, FIG. 2, FIG. 4, FIG. 5—which work on irregular surfaces and best at wet surfaces and produce approximate pressure of 0.1 MPa (1 atm) The vacuum will be almost continuously rejuvenated due to the natural chewing of the mouth Each sucker can be very small in size FIG. 6, FIG. 7 which can be created by using flexible plastic sheet as sheath (plastic approved by FDA-USA) with suckers on both upper and lower surfaces with the shape of the jaws (matching the jaws& dental impression taken by the dentist) similarly with both sides (upper &lower) with the lower surface of the flexible plastic sheath matching the shape of the natural jaws and the upper sheath surface matching the lower surface of the normal denture surface, both of the flexible plastic upper and lower sheath surfaces. The sheath with upper and lower suckers will have flat straight gaps between each successive sucker and the next sucker on the upper sucker's row and lower sucker's row to make sure of vacuum created in each sucker is acting independently on the gum and denture FIG. 36
DESCRIPTION OF THE DRAWING
Elements in the figures have not necessarily been drawn to scale in order to enhance their clarity and improve understanding of these various elements and embodiments of the invention. Furthermore, elements that are known to be common and well understood to those in the industry may not be depicted in order to provide a clear view of the various embodiments of the invention; thus the drawings are generalized in form in the interest of clarity and conciseness.
FIG. 1, Octopus as shown in natural
FIG. 2: Squids as shown in natural
FIG. 3 OCTOPUS SUCKER MAGNIFIED EACH SUCKER GIVES SUCTION FORCE OF 0.1 MP (1 atmos) WORK MUCH BETTER ON WET SURFACE AND WORK ON ANY IRREGULAR SURFACE
FIG. 4 CAN BE VERY SMALL FEW MILLIMETERS IN DIAMETER.
FIG. 5; Pictures of Squids Suckers as shown in natural way
FIG. 6; Pictures of two LEECHES SUCTION Suckers as shown in natural
FIG. 7; LEECHES SUCTION
FIG. 8, FLEXIBLE PLASTIC VACUUM CELLS ATTACHED TO GLASS WALL
FIG. 9; Hanging of items on FLEXIBLE PLASTIC VACUUM CELLS
FIG. 10; FLEXIBLE PLASTIC VACUUM CELLS ATTACHED TO GLASS TABLE
FIG. 11; Loads carried by FLEXIBLE PLASTIC VACUUM CELLS ATTACHED TO GLASS TABLE
FIG. 12 PULLING TEST BALANCES
FIG. 13 LOADS IN EXCESS OF 21 KG on FLEXIBLE PLASTIC VACUUM CELLS ATTACHED TO GLASS TABLE
FIG. 14 LOAD TEST on FLEXIBLE PLASTIC VACUUM CELLS ATTACHED TO GLASS TABLE
FIG. 15 CONCAVE BOTTOM TIN TEST
FIG. 16 Loads tests on concave tin
FIG. 17; CONCAVE BOTTOM TIN TEST carrying more than 21 kg
FIG. 18 SOUAP HOLDER SUCKERS USED TO DEMONS IRATE VACUUM SUCTION ATTACHED TO WALL MIRROR
FIG. 19; suckers on both sides of plastic sheet attached to walls
FIG. 20, ASSORTED COLLECTIONS OF VACUUM CELLS SUCTION ABILITY (SUCKERS) ADHESION TO WALL MIRROR
FIG. 21 Bath handles using the vacuum and increased using spring
FIG. 22; BATH HANDLE SUCTION TEST
FIG. 23 BATH HANDLE SUCTION TEST can carry loads
FIG. 24; TEST RESULTS=21 KG—UP TO 50 KG LIFT NEEDED TO REMOVE SUCKER FROM BATH TABLE
FIG. 25; SHOWS DETAIL OF BATH HANDLE (VACUUM CELL) USING SPRING TO INCREASE SUCTION FORCE ON SURFACES PULL
FIG. 26, BATH HANDLE (SUCTION CELL) WITH HANDLES LOCKED BEFORE PULLING SPRING
FIG. 27 AFTER PULLING THE SPRING TO CREATE THE VACUUM SUCTION ON THE TABLE
FIG. 28; SHOWS SOLID BACK TABLE WITH ATTACHED VACUUM CELL WITH SPRING INSIDE (AS SHOWN ABOVE) AND ATTACHED TO THE TABLE
FIG. 29; SHOWS THE TABLE LIFTED ABOVE GROUND WITH EASE.
FIG. 30 SHOWS THE TABLE MOVED AROUND USING THE SUCKER AS THE LIFTING FORCE
FIG. 31: SHOWS THE TABLE ON THE FLOOR WITH TAPE MEASURE SHOWING THE DIAMETER OF THE VACUUM CELL (2 inches) SUCKER DIAMETER.
FIG. 32: GYPSUM JUM WITH PLASTIC SHEATH IN THE MIDDLE AND ON TOP NORMAL DENTURE
FIG. 33; MAKING THE DENTURES
FIG. 34; FLEXIBLE SHEATH ON TOP OF THE DENTURE WITHOUT SUCKERS
FIG. 35; FLEXIBLE SHEATH ON TOP OF GYPSUM JUM WITHOUT SUCKERS
FIG. 36, GYPSUM JUM, DENTURE, FLEXIBLE PLASTIC SHEATH WITHOUT SUCKERS
FIG. 37; SKETCH SHOWING PLASTIC SHEET (SHEATH) BETWEEN TWO ROWS OF MALE AND FEMALE IN AN ALTERNATIVE PATTERN WITH THE SUCKERS CELLS IN ALTERNATE SIMILAR TO BECOME LEVEL AFTER CHEWING AND CLOSING THE MOUTH GIVING VACUUM SUCTION ON BOTH PART OF THE UPPER OR LOWER DENTURE.
FIG. 38; SKETCH SHOWS PLACES FOR UPPER AND LOWER SUCKERS IN ALTERNATIVE MODE WHEN PRESSED BY THE JAWS THE SUCKERS WILL PRODUCE SUCTION ON BOTH JAWS AND DENTURES AND WILL ADHERE TO EACH OTHER AND THIS SUCTION WILL BE REJUVENATED EVERY TIME THE MOUTH CLOSES
FIG. 39; POSSIBLE SUCKERS SHAPES
FIG. 40: AN ALTERNATIVE METHOD TO INCREASE SUCTION (LIKE USING SPRING TO PULLUP TO FORM VACUUM) USING BOLT OR THREAD USED TO PULL THE FLEXIBLE PLASTIC SHEATH LIKE THE VACUUM CELL (SUCKER)
FIG. 41; SILICON OR EVA SHEATH CAN BE HELD VERY TIGHTLY TO THE ACRYLIC GUM USING HOLES ON BOTH SIDES OF THE ACRYLIC GUM
FIG. 42 SHEATH WITH ALTERNATIVE UPPER AND LOWER SUCKERS POSITIONS
FIG. 43 the method using suckers
FIG. 44 ALTERNATIVE SUCKERS PLACES
FIG. 45; TEETH IMPLANT, MOST PAINFUL METHOD (FOR SIX MONTHS), VERY EXPENSIVE
DETAIL DESCRIPTION OF THE INVENTION
The present invention relates to methods and apparatus for producing permanent dentures without using any implants (screws) on the jaws bones or glue but using the vacuum of suction cells (suckers), between the natural jaws and normally made dentures but using flexible plastic (approved by FDA of USA) sheath between the jaws and the dentures using suckers (similar to octopus or Squid or leeches Suckers) FIG. 1, FIG. 6, made on upper and lower surfaces of the sheath surfaces. The making of the dentures will use the same methods used with normally made denture with the usual impression taken for normal made dentures FIG. 33. The flexible plastic sheath (FIG. 36) will be used in-between the gum and the normal dentures and will be vacuum formed with heat& vacuum (Thermoforming method—or injection molding for very flexible plastics, mass production with sizes) to take the shape of the jaws—gum shape on one side and the shape of the normally made dentures inner (lower) side shape with suckers on both surfaces FIG. 44, for clarification the making of the plastic sheath will be assumed to take the shape of the jaws-gum impression on the lower side and the impression on the upper part of the sheath of the already made normal denture impression with the suckers on both upper and lower surfaces. The suckers (work very well in wet surfaces for Octopus, leaches and Squids in nature)—or in the wet mouth for the suckers on the flexible sheath and the vacuum is rejuvenated on chewing of the mouth on the sheath upper surface and lower surface of the suckers. The suckers are made in half-sphere shape like (or any suitable shape) with width or diameter nearly equal to the gum thickness with height of the (sucker height) sucker equal half-sphere approximately 1 mm to 3 mm height enough to produce suction. These suckers will be flat when squeezed and pushed by the pressure exerted on this half-sphere sucker top part and the lower part by the squeezing of both jaws in normal eating or chewing. These alternating upper suckers and lower suckers will have flat gaps between the suckers on the jaws and dentures surfaces. All upper suckers and lower suckers and the flat part in-between will all be squeezed flat when both jaws are in closed positions FIG. 32. When the half-sphere top will be squeezed (pushed down) vacuum will be created and suction will take place (rubber like silicon or Eva or similar flexible plastics approved by FDA-USA) and the sheath will adhere to both surfaces of the jaws and the denture surfaces with great strength
FIG. 38, these individual vacuum suction cells (suckers) on the flexible plastic sheath will fit perfectly on both sides of the jaws upper side and the lower side of the normally made dentures (suckers vacuum will work on concave or curved or irregular surfaces if flexible plastic are used-see vacuum suckers tests on concave surfaces FIG. 15.
These flexible plastic sheets sheaths will have individual vacuum suction cells on the upper part of the sheath and individual vacuum suction cell on the lower side of the flexible sheaths These shaped plastic sheath with its vacuum suction cells, FIG. 36 (suckers not made yet for clarification of the principal) on its upper surface and lower surface will be made to adhere to the jaws and the normal made dentures and can be used to adhere to the upper jaw or lower jaw or to partial part of the upper or lower jaw like the bridge used in the normal individual bridge without depending on the side or adjacent teeth but completely individual and independent and depending on individual plastic suction cells suckers. These individual suction cells (suckers) can adhere to the jaws and the normal made upper denture or lower denture and the jaws gum using the suckers on both sides of the jaws and the normal denture inner part by using a plastic sheet made to fit to the jaws gum and the normal made dentures with the contours impression printed for individual upper jaws gum or lower jaws gum using the normal methods using gypsum method to get impressions for the jaws gum contour and inner part contour of the denture and the plastic sheet contour with the suction suckers in place before being pushed to produce the suction on both sides of the plastic sheath. FIG. 38. However it should be pointed out that normal dentures made, use the suction and adhesion of the cavity made in the upper denture set use suction (not very good vacuum suction) due to the tongue and mouth suction to get the denture set adhere to the upper part of the mouth due to the special cavity made in the upper denture set and this suction and adhesion could not be done in the lower denture set and difficulties exist in fixing the lower denture to the lower jaws and it should be mentioned that this suction cavity where done in Japan around 1700s and the dentures had almost the same shape as modern dentures, and attached inside the mouth with similar suction and adhesion as done today. Patent development to increase the vacuum suction between the false teeth and the jaws gum, using bolts or threads (FIG. 40); An alternative method to make the false teeth permanent is to use continuous sheath without suckers like shown in (FIG. 40) for both upper and lower jaws but with bolts attached as shown and the bolts will be placed in selected teeth and not for all teeth so one suction vacuum will be independent of each other and not connected to each other so each vacuum created will be independent of each other and is to use maximum suction to be applied between the false teeth (dentures) and the natural mouth jaws using the vacuum created by the pulling up the lower part of the denture resting on the natural jaws using the screws pull up between the denture and the jaws by pulling the plastic sheath inner part but holding the outer part of the sheath attached to the jaws outer part but the sheath are held to the red acrylic gum as shown similar to the mechanical pull of the bath suction handle FIG. 25 which has very high suction forces see test results in pictures attached FIG. 29 However these bolts and nuts can be discarded and replaced with circular thread stainless steel or gold or plastic nylon to be inserted in the hole in the teeth and connected to the sheath using washers or any other connectors or similar material strong enough to withstand the pulling of the sheath while holding the base of the sheath attached to the base of the natural jaws gum by pulling the thread using pulling device (say twisters) the after pulling the sheath to the predetermine required length then glue which dries quickly is applied and the thread is held by the device until dry the thread and the sheath may be up 1-2 mm above the jaws gum, the thread excess is cut off using the teeth grinder and the hole sealed using acrylic glue FIG. 41 this will be applied for the chosen teeth may be 5-6 for each denture upper and lower jaws and the thread is cut and the denture are smoothed to be able to use the denture normally, this procedure can be used on several successive false teeth and leave several false teeth to hold the sleeves tight to the human gum so the vacuum will operate at individual teeth and pull the sleeves 2 mm or more up and on both sides of these pulled up sleeves will be pushing the sleeves on both sides with several teeth and so on to keep the vacuum individually just in case one set of vacuum or string braking, it should be noted that the clear holes do not have to be on the front face of the false acrylic teeth but may be inside on the acrylic false red gum especially for the front teeth sets then the sheath is pushed by the human jaws downward which will give it the vacuum needed if perfects contours are done on the silicon sheath or if EVA is used, It should be noted that to hold the silicon or EVA sheath can be held very tightly to the acrylic gum using click on key holding device to grip the denture to the sheath. Holes (FIG. 41) on both horizontal sides of the acrylic gum to hold the sheath on both sides by melting the silicon or EVA and applied to the denture and the sleeve bottom edges only before attaching the denture and sleeve on top of natural gum, glue can be used temporarily to hold the sheath bottom to the acrylic gum if holes where not made. The above procedures can be made in several teeth units with gaps in-between to give the human gum chance to breath and can be cleaned with tooth brush. These units can be connected to each other in several ways (GLUE, STEEL CONNECTORS) The thread system can work on 3 tooth group by putting the thread in the middle tooth but half of the sleeve will have gap on both sides of the middle tooth but pressed by half the 1st and half of 3th tooth, (i.e. the sleeve can stretch on two tooth) but the sleeves' can stretch on the middle tooth and half of the first and half of the 3rd tooth, the rest is as above It should be noted that These vacuum suction cells (suckers) or vacuum created using bolts or threads, can be separated using air pressure introduced to the sheath suckers through small holes drilled by the dentist or already made before installation of the denture and these holes will be capped by screws (acrylic or like implant screws) which can be taken out and air is pushed through these holes to release the denture attachment to the gum by removing the vacuum suctions effect on both the upper and lower surfaces when required but can be treated like implant screw on false teeth system in the long term effect. FIG. 44 shows sheath with places for upper and lower made suckers in alternative mode which when pressed done by the jaws the suckers will produce suction on both the jaws gum and the dentures and they will adhere to each other and this suction will be rejuvenated every time the mouth closes
It should be noted that the sheath manufactured with its vacuum suction cells (suckers) used in this patent can be produced using injection molding plastic sheath if made of very thin and very flexible plastic materials, then the sheaths will take any shape{vacuum suction the cells (suckers) will produce the same dental impression of the natural jaws gum and the same dental impression of acrylic denture of the lower shape due to the vacuum created} with the same suckers as described above and can be ready for wearing by any person but may have sizes, 325 small, medium and large size to fit different size jaws aided by computer scan and may help in deciding the size needed or designing the shape of the injection molding sheath required