US939261A - Machine for contouring crown-matrices. - Google Patents

Machine for contouring crown-matrices. Download PDF

Info

Publication number
US939261A
US939261A US47502709A US1909475027A US939261A US 939261 A US939261 A US 939261A US 47502709 A US47502709 A US 47502709A US 1909475027 A US1909475027 A US 1909475027A US 939261 A US939261 A US 939261A
Authority
US
United States
Prior art keywords
rod
frame
crown
machine
arm
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US47502709A
Inventor
Fernando O Jaques Jr
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CENTRAL TOOL Co
Original Assignee
CENTRAL TOOL Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by CENTRAL TOOL Co filed Critical CENTRAL TOOL Co
Priority to US47502709A priority Critical patent/US939261A/en
Application granted granted Critical
Publication of US939261A publication Critical patent/US939261A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C9/00Moulds or cores; Moulding processes
    • B22C9/12Treating moulds or cores, e.g. drying, hardening
    • B22C9/123Gas-hardening
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S164/00Metal founding
    • Y10S164/04Dental

Definitions

  • WaW mw/a fi/d m t.
  • My invention relates to a machine for contouring matrices for seamless dental crowns.
  • Serial Number 459,698 is set forth a novel method of contouring which involves the construction of a matrix with an orifice conforming to the shape of the natural tooth, but of such larger dimensions as to exactly compensate for the thickness of the wall of the blank to be later introduced and operated upon.
  • the essential purposes of the present invention are to provide a machine for forming such a matrix, particularly a matrix which will permit compensation for the thickness of the bottom as well as for the side wall of the blank; also to provide means for predetermining the dimensions of any required crown and means for automatically imparting to the matrix a shape embodying such dimensions. Further, to provide a mechanism whose use makes the construction of plaster forms from impressions of the natural teeth in the preparation of a crown unnecessary.
  • my invention consists in means for automatically per forming the proposed functions, and in the novel construction and operation of the parts both severally and combined.
  • Figure 1 is a front elevation of a machine embodying my invention partially in section, Fig. 2, a side elevation partially in section of the same showing some portions of the measuring rods broken away, Fig. 8, a plan of the machine, Fig. 4, a section of the same on line :0 a: of Fig. 1, showing in broken lines the supporting arm in calculating position, Fig. 5, a section on y y of Fig. 2, Fig. 6, a bottom plan view of the crank disk, Fig. 7, a perspective view of the wire loop, Fig. 8, a perspective of the natural tooth, Fig. 9, a
  • Fig. 10 a side elevation of the same within the matrix and flask shown in transverse section
  • Fig. 11 a like section of the matrix, flask, and inclosed unbent crown blank
  • Fig. 12 a like section of the same after the internal swaging operation
  • Fig. 13, a perspective view of the completely contoured crown.
  • the frame of my machine in the present instance comprises a base, 1, provided with an integral cylindrical socket member, 2, a post, 3, upon the base, a plate, 4, fixed to the top of the post by a screw, 5, and projecting over the socket member, 2.
  • An arm, 7, has a split bearing or sleeve, 8, upon the post, 3, to which it is frictionally held in any adjusted position, either vertically or radially, by a binding screw, 9, engaging ears, 10, of the split ring, 8.
  • the arm, 7, is provided with a recess, 11, to receive a bottomless flask, 12, which is maintained therein by a set screw, 13, mounted in the end of the arm.
  • a gear, 16 having an operating handle, 17, and meshing with a pinion, 18, fixed to the upper end of a pin, 19, rotatably mounted in the plate, 4, e011- centric with the socket member, 2.
  • a disk, 20, Fixed to or integral with the lower end of the pin, 19, is a disk, 20, provided in its bottom face with an eccentric cavity, 21, as shown in Fig. 6, the same constituting, as will be later seen, a crank or crank disk.
  • a rod Projecting loosely into the cavity, 21, is the reduced rounded end, 22, of a rod, 23, provided throughout its length with a series of annular ribs, 24.
  • the lower end of the rod is supported in the socket member, 2, by a universal joint, asfollows:
  • Encircling the rod, 23, and interspaced therefrom is a ring, 25, sustained by pivot points, 26, fixed in the socket member, and entering diametrically opposite cavities, 27, in the exterior of the ring.
  • an arm Longitudinally and transversely adjustable on rod, 23, above the plane of the flask is an arm comprising in detail an oblong body portion, 31, provided in its end portions with openings, 32 and 33, to receive respectively the shank, 34, of a tooth form or model, 35, and the rod, 23.
  • the body, 31, is rectangularly cut from the opening, 33, to one of its side margins to form a flexible integral flange, 37, partially surrounding the rod and provided with a threaded opening, 38, to receive the end of a binding screw, 39, passing through a threaded opening, 40, in the arm body.
  • a horizontal slot, 41 extends into the body and partially around the rod to permit contact with the ribs of the latter of a spring, 42, fixed at one end to the arm body.
  • a set screw, 44, in the arm body extends into the opening, 32, and binds therein the tooth model shank.
  • the described arm may be fric tionally engaged with the rod, 23, at any desired radial or longitudinal point or may be loosened to permit free rotation of the arm to any desired position; that while being so rotated, the arm 'is retained in its original horizontal plane by means of the spring, 42. Itwill be further noted that, by virtue of the offset portion of the cavity in the disk, 20, the latter, when actuated by the gear, 16, through pinion, 18, imparts to the rod, 23, and to the model, 35, a radially oscillating movement.
  • the model however, has also a vertically reciprocating movement due to the fact that the upper end of the rod, 23, which is pivoted at its bottom but which is relatively free at its top, describes during a horizontal oscillation an arc in its vertical plane.
  • This novel vertical movement is important for a reason hereinafter set forth.
  • Each rod is parallel with the oscillatory axis of the rod, 23, and gradually tapers from a point near its top to its lower end, the top of one rod being of a diameter equal to the diameter of the lower end of the next adjacent rod of the series.
  • certain stock or model metal teeth In addition to the wire loop is employed certain stock or model metal teeth. .A given tooth in different persons diifers but little in contour, but does materially differ in dimensions. T herefore a plurality of model metal teeth of each kind. of human teeth are provided, similar in contour but of varying diameters.
  • Fig. 9 is shown a metal model of a central having the usual cusp or body, 35,
  • the successive diameters of the necks, 60, of the series of models of any particular tooth are the diameters of the lower ends of the respective rods, 46, 47, 48, etc., which rods may be marked or lettered successively to identify the respective models, which are also marked or lettered, whose diameters correspond to their respective lower ends. In this instance, the rods themselves are lettered alphabetically, but the markings may be on the frame adjacent the several rods.
  • the variation in diameter throughout the length of any single measuring rod is the same as the variation between the gum lines of each model tooth, and is equal to the increased diameter of the path. described by the oscillation of the upper end of the rod, 23.
  • the flask, into which casting metal has been introduced in a fused condition, is then elevated to a position surrounding the model and fixed by the clamping screw, 7.
  • the gear, 16, is then manually rotated to impart the desired movement of the model during the cooling of the fused metal.
  • This movement produces, as shown in Fig. 10, a matrix, 61,with an opening, 62, conforming substantially with the contour of the model but of greater lateral and vertical dimensions.
  • the increased lateral dimension is due to the oscillatory movement, and the increased vertical dimension, to the vertical movements of the rod, 23.
  • a cylindrical seamless crown blank or thimble, 63 is inserted into the matrix opening, 62.
  • the blank is then filled with filings or other materials which are tamped down to expand the blank wall against the sides of the orifice, 62, as shown in Fig. 12.
  • the matrix is then fractured to release the resulting contoured crown shown in Fig. 13.
  • the internal dimensions of the entire crown including the gum line will be found to be those of the exterior of the nat-' ural tooth.
  • Another method of employing my machine discards the use of the loop, 59, and the measuring bars. This occurs when in place of a conventional metal model of the natural tooth the operator first constructs from an impression of the natural tooth a plaster form of the same dimensions as the latter. This form is then mounted in the arm, 7, directly, without preliminary measurements, and the machine set in operation.
  • the combination with a flask for fuscd metal, of a frame means upon the frame for supporting a tooth model within the flask, and means upon the frame for imparting radially oscillating and vertically reciprocating movement to the model supporting means.
  • the combination with a flask for fused metal, of a frame means mounted in the frame for supporting a tooth model within the flask, and means upon the frame engaging the supporting means for imparting radially oscillating and vertically reciprocating movement to the model supporting means.
  • the combination with a flask for fused metal, of a frame means mounted in the frame and radially and vertically movable therein for supporting a tooth model within the flask and means upon the frame for imparting continuous oscillating and reciprocating movement to the supporting means.
  • a rod pivotally mounted atits lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame engaging the upper end of the rod for oscillating the rod, and a flask mounted upon the frame intermediate the arm and the lower end of the rod.
  • a machine for contouring crown matrices the combination with a frame, of a rod pivotally mounted at its lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame engaging the upper end of the rod for oscillating the rod, a flask mounted upon the frame intermediate the arm and the lower end of the rod, and means for adjusting the flask relatively to the arm.
  • a machine for contouring crown matrices the combination with a frame, of a rod pivotally mounted at its lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame for oscillating the rod, a flask mounted upon the frame intermediate the arm and the lower end of the rod, and means for vertically adjusting the armr 10.
  • the combination with a frame and flask, of a vertical operating rod pivotally mounted at its lower end in the frame below the flask an arm for supporting a tooth model mounted upon the rod above the flask, a crank disk rotatably mounted in the frame and engaging the upper end of the rod and means upon the frame for rotatin the crank disk.
  • a machine for contouring crown matrices the combination with a frame and flask, of a vertical operating rod yieldingly mounted in the frame at its lower end below the flask, an arm for supporting a tooth model mounted upon the rod above the flask, a disk rotatably mounted in the frame and provided with a cavity off center upon its lower face adapted to receive the upper end of the rod, and means for rotating the disk.
  • the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod in the frame pan allel to the oscillatory axis of the operating rod, and an arm upon the operating rod movable toward and away from the measuring rod.
  • a measuring rod fixed in the frame parallel with the oscillatory axis of the operating rod and provided with a taper toward its end corresponding with the degree of inclination of the operating rod, a movable arm upon the operating rod, a tooth model removably mounted in the arm and whose neck circumference equals thecircum: ference of the measuring rod, and a loop adapted to surround and friotionally engage an intermediate portion of the measuring rod.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Casting Devices For Molds (AREA)

Description

F. 0. JAQUBS, JR.
MACHINE FOR CONTOURING GROWN MATRICES.
APPLIOATION FILED JAN. 29, 1909.
Q39 26] Patented Nov. 9,1909. 3 SHEETS-SHEET 1.
L 4 5 46 I I 1 5 .5 /7 47 1 /a /6 45 Willi Ill 1 IHIHI i 5/ .j 5 I I Y 1 I 8 Y II I, x I X HGF' 'I'b' I 46 I ,2 2' 9 DI I 47 I 9 /0 I 4 48 U 5/ i 24 .9 5/ I 24 4/ I J5 a? I 26 I X.
. 2 R '1 Y, L k f I FBI. 25
25 25 i 2 i k FTBZ. gWl-TNE'EEEE. INVENTDR'.
WaW: mw/a fi/d m t.
ATTEJR'NEZY.
F. 0. JAQUES, JR. MACHINE FOR OONTOURING GROWN MATRICES.
' 'APPLIOATION FILED JAN. 29, 1909.
939,261 Patented Nov. 9, 1909.
3 SHEETS-SHEET 2.
WITNESEEE INVENTEIR.
w; W. fwme WWQQQ ATTORNEY.
uuuuuuuuuuuuuuuuuuuuuu uuuuuuuuuuuuuuuuuuuuuuuuuu c.
, F. 0. JAQUES, JR. MACHINE FOR. GONTOURING GROWN MATRICES.
APPLICATION FILED JAN. 29, 1909.
939,261 Patented NOV.9, 1909.
3 SHEETS-SHEET 3.
ATTURNEY.
UNITED STATES PATENT OFFICE.
FERNANDO 0. JAQUES, JR., OF CBANSTON, RHODE ISLAND, ASSIGNOR T0 CENTRAL TOOL COMPANY, A CORPORATION OF RHODE ISLAND.
MACHINE FOR CONTOURING CROWN-MATRICES.
Specification of Letters Patent.
Patented Nov. 9, 1909.
Application filed January 29, 1909. Serial No. 475,027.
To all whom it may concern:
Be it known that I, F ERNANDO O. JA UES, Jr., a citizen of the United States, residing at Cranston, in the county of Providence and State of Rhode Island, have invented certain new and 'useful Improvements in Machines for Contouring Crown-Matrices, of which the following is a specification.
My invention relates to a machine for contouring matrices for seamless dental crowns. In my copending patent application filed October 27, 1908, Serial Number 459,698, is set forth a novel method of contouring which involves the construction of a matrix with an orifice conforming to the shape of the natural tooth, but of such larger dimensions as to exactly compensate for the thickness of the wall of the blank to be later introduced and operated upon.
The essential purposes of the present invention are to provide a machine for forming such a matrix, particularly a matrix which will permit compensation for the thickness of the bottom as well as for the side wall of the blank; also to provide means for predetermining the dimensions of any required crown and means for automatically imparting to the matrix a shape embodying such dimensions. Further, to provide a mechanism whose use makes the construction of plaster forms from impressions of the natural teeth in the preparation of a crown unnecessary.
To the above and other ends my invention consists in means for automatically per forming the proposed functions, and in the novel construction and operation of the parts both severally and combined.
In the accompanying drawings which form a part of this specification, Figure 1 is a front elevation of a machine embodying my invention partially in section, Fig. 2, a side elevation partially in section of the same showing some portions of the measuring rods broken away, Fig. 8, a plan of the machine, Fig. 4, a section of the same on line :0 a: of Fig. 1, showing in broken lines the supporting arm in calculating position, Fig. 5, a section on y y of Fig. 2, Fig. 6, a bottom plan view of the crank disk, Fig. 7, a perspective view of the wire loop, Fig. 8, a perspective of the natural tooth, Fig. 9, a
like view of a model or form, Fig. 10, a side elevation of the same within the matrix and flask shown in transverse section, Fig. 11, a like section of the matrix, flask, and inclosed unbent crown blank, Fig. 12, a like section of the same after the internal swaging operation, and Fig. 13, a perspective view of the completely contoured crown.
Similar characters of reference indicate like parts throughout the views.
The frame of my machine in the present instance comprises a base, 1, provided with an integral cylindrical socket member, 2, a post, 3, upon the base, a plate, 4, fixed to the top of the post by a screw, 5, and projecting over the socket member, 2. An arm, 7, has a split bearing or sleeve, 8, upon the post, 3, to which it is frictionally held in any adjusted position, either vertically or radially, by a binding screw, 9, engaging ears, 10, of the split ring, 8. The arm, 7, is provided with a recess, 11, to receive a bottomless flask, 12, which is maintained therein by a set screw, 13, mounted in the end of the arm.
Mounted upon a pivot pin, 15, near one end of the plate, 4, is a gear, 16, having an operating handle, 17, and meshing with a pinion, 18, fixed to the upper end of a pin, 19, rotatably mounted in the plate, 4, e011- centric with the socket member, 2. Fixed to or integral with the lower end of the pin, 19, is a disk, 20, provided in its bottom face with an eccentric cavity, 21, as shown in Fig. 6, the same constituting, as will be later seen, a crank or crank disk.
Projecting loosely into the cavity, 21, is the reduced rounded end, 22, of a rod, 23, provided throughout its length with a series of annular ribs, 24. The lower end of the rod is supported in the socket member, 2, by a universal joint, asfollows: Encircling the rod, 23, and interspaced therefrom is a ring, 25, sustained by pivot points, 26, fixed in the socket member, and entering diametrically opposite cavities, 27, in the exterior of the ring. At diametrically opposite portions of the ring, 25, are fixed pivot points, 28, disposed at right angles to the points, 26, and entering cavities, 29, in-the lower end of rod, 23.
Longitudinally and transversely adjustable on rod, 23, above the plane of the flask is an arm comprising in detail an oblong body portion, 31, provided in its end portions with openings, 32 and 33, to receive respectively the shank, 34, of a tooth form or model, 35, and the rod, 23. The body, 31, is rectangularly cut from the opening, 33, to one of its side margins to form a flexible integral flange, 37, partially surrounding the rod and provided with a threaded opening, 38, to receive the end of a binding screw, 39, passing through a threaded opening, 40, in the arm body. A horizontal slot, 41, extends into the body and partially around the rod to permit contact with the ribs of the latter of a spring, 42, fixed at one end to the arm body. A set screw, 44, in the arm body extends into the opening, 32, and binds therein the tooth model shank.
It will be observed that, by means of the screw, 39, the described arm may be fric tionally engaged with the rod, 23, at any desired radial or longitudinal point or may be loosened to permit free rotation of the arm to any desired position; that while being so rotated, the arm 'is retained in its original horizontal plane by means of the spring, 42. Itwill be further noted that, by virtue of the offset portion of the cavity in the disk, 20, the latter, when actuated by the gear, 16, through pinion, 18, imparts to the rod, 23, and to the model, 35, a radially oscillating movement. The model, however, has also a vertically reciprocating movement due to the fact that the upper end of the rod, 23, which is pivoted at its bottom but which is relatively free at its top, describes during a horizontal oscillation an arc in its vertical plane. This novel vertical movement is important for a reason hereinafter set forth.
Fixed in the plate or arm, 6, and concentrically disposed with relation to the axis of rod, 23, are a series of downwardly projecting rods, 46, 47, etc. Each rod is parallel with the oscillatory axis of the rod, 23, and gradually tapers from a point near its top to its lower end, the top of one rod being of a diameter equal to the diameter of the lower end of the next adjacent rod of the series.
One approved method of forming tooth crowns in which this machine is employed is the following: The operatortwists a piece of wire around the neck, or gum line, 57, of the natural tooth, 58, which is to be crowned, thus forming a wire loop, 59, whose internal diameter is equal to the interior diameter of the crown to be formed. In addition to the wire loop is employed certain stock or model metal teeth. .A given tooth in different persons diifers but little in contour, but does materially differ in dimensions. T herefore a plurality of model metal teeth of each kind. of human teeth are provided, similar in contour but of varying diameters.
In Fig. 9 is shown a metal model of a central having the usual cusp or body, 35,
and neck or gum line, 60, above which is a' shank, 34, to facilitate mounting in the machine. The successive diameters of the necks, 60, of the series of models of any particular tooth are the diameters of the lower ends of the respective rods, 46, 47, 48, etc., which rods may be marked or lettered successively to identify the respective models, which are also marked or lettered, whose diameters correspond to their respective lower ends. In this instance, the rods themselves are lettered alphabetically, but the markings may be on the frame adjacent the several rods. The variation in diameter throughout the length of any single measuring rod is the same as the variation between the gum lines of each model tooth, and is equal to the increased diameter of the path. described by the oscillation of the upper end of the rod, 23.
The wire loop, 59, after removal from the natural tooth is upwardly pushed upon that rod of the series whereon it will cling at an intermediate point. In Figs. 1 and 4, the loop, 59, is shown upon the rod, 51, marked F The model tooth bearing the corresponding letter is inserted and fixed in the opening, 32, of the arm, 31, and the latter is then swung rearwardly into the position shown in broken lines in Fig. 4 in radial alinement with the rod, 50, and vertically moved on the rod, 23, to bring the gum line, 60, of the model tooth in horizontal alinement with the loop, 59. The arm, 31, is then swung back in the same horizontal plane to its original position above the flask, 12. The flask, into which casting metal has been introduced in a fused condition, is then elevated to a position surrounding the model and fixed by the clamping screw, 7. The gear, 16, is then manually rotated to impart the desired movement of the model during the cooling of the fused metal. This movement produces, as shown in Fig. 10, a matrix, 61,with an opening, 62, conforming substantially with the contour of the model but of greater lateral and vertical dimensions. The increased lateral dimension is due to the oscillatory movement, and the increased vertical dimension, to the vertical movements of the rod, 23. After the matrix has cooled the model is withdrawn, and the flask removed from the arm, 7. Next a cylindrical seamless crown blank or thimble, 63, is inserted into the matrix opening, 62. as shown in Fig. 11. The blank is then filled with filings or other materials which are tamped down to expand the blank wall against the sides of the orifice, 62, as shown in Fig. 12. The matrix is then fractured to release the resulting contoured crown shown in Fig. 13. The internal dimensions of the entire crown including the gum line will be found to be those of the exterior of the nat-' ural tooth.
Another method of employing my machine discards the use of the loop, 59, and the measuring bars. This occurs when in place of a conventional metal model of the natural tooth the operator first constructs from an impression of the natural tooth a plaster form of the same dimensions as the latter. This form is then mounted in the arm, 7, directly, without preliminary measurements, and the machine set in operation.
As the construction of a plaster form involves the exercise of a high grade of skill and care the first described method is preferable to second.
hat I claim is,
1. In a machine for contouring crown matrices, the combination with a flask for fused metal, of means for supporting a tooth model within the flask, and means for imparting radially oscillating and vertically reciprocating movement to the model supporting means.
In a machine for contouring crown matiriccs, the combination with a flask for fuscd metal, of a frame, means upon the frame for supporting a tooth model within the flask, and means upon the frame for imparting radially oscillating and vertically reciprocating movement to the model supporting means.
3, In a machine for contouring crown matrices, the combination with a flask for fused metal, of a frame, means mounted in the frame for supporting a tooth model within the flask, and means upon the frame engaging the supporting means for imparting radially oscillating and vertically reciprocating movement to the model supporting means.
at. In a machine for contouring crown matrices, the combination with a flask for fused metal, of a frame, means mounted in the frame and radially and vertically movable therein for supporting a tooth model within the flask and means upon the frame for imparting continuous oscillating and reciprocating movement to the supporting means.
In a machine for contouring crown matrices, the combination with a frame, of a rod pivotally mounted at its lower end in the frame, means upon an intermediate portion of the rod for holding a tooth model, and means upon the frame engaging the upper end of the rod for oscillating the rod.
6. In a machine for contouring crown matrices, the combination with a frame, of
a rod pivotally mounted atits lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame engaging the upper end of the rod for oscillating the rod, and a flask mounted upon the frame intermediate the arm and the lower end of the rod.
7 In a machine for contouring crown matrices, the combination with a frame, of a rod pivotally mounted at its lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame engaging the upper end of the rod for oscillating the rod, a flask mounted upon the frame intermediate the arm and the lower end of the rod, and means for adjusting the flask relatively to the arm.
8. In a machine for contouring crown matrices, the combination with a frame, of a rod pivotally mounted at its lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame engaging the upper end of the rod for oscillating the rod, a flask mounted upon the frame intermediate the arm and the lower end of the rod, and means for adjusting the arm.
9. In a machine for contouring crown matrices, the combination with a frame, of a rod pivotally mounted at its lower end in the frame, an arm upon an intermediate portion of the rod for holding a tooth model, means upon the frame for oscillating the rod, a flask mounted upon the frame intermediate the arm and the lower end of the rod, and means for vertically adjusting the armr 10. In a machine for contouring crown matrices, the combination with a frame and flask, of a vertical operating rod pivotally mounted at its lower end in the frame below the flask, an arm for supporting a tooth model mounted upon the rod above the flask, a crank disk rotatably mounted in the frame and engaging the upper end of the rod and means upon the frame for rotatin the crank disk.
11. In a machine for contouring crown matrices, the combination with a frame and flask, of a vertical operating rod yieldingly mounted in the frame at its lower end below the flask, an arm for supporting a tooth model mounted upon the rod above the flask, a disk rotatably mounted in the frame and provided with a cavity off center upon its lower face adapted to receive the upper end of the rod, and means for rotating the disk.
12. In a machine for contouring crown matrices, the combination with the frame, of an operating rod pivotally mounted at its lower end in the frame and provided with a series of annular ribs, a radially movable arm upon the operating rod, means upon the arm engaging the ribs forsupporting the arm during the radial movement of the arm, and means upon the frame engaging the upper end of the rod for oscillating the radial movement of the arm, means upon the arm for clamping the arm to the rod, and
means upon the frame for oscillating the rod.
14. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod in the frame, and an arm upon the operating rod movable toward and away from the measuring rod.
15. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod in the frame pan allel to the oscillatory axis of the operating rod, and an arm upon the operating rod movable toward and away from the measuring rod.
16. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a tapering measuring rod in the frame parallel with the oscillatory axis of the operating rod, and means upon the operating rod for holding a tooth model.
17. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a tapering measuring rod in the frame parallel with the oscillatory axis of the operating rod, and longitudinally movable means upon the operating rod for holding a tooth model.
18. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a tapering measuring rod in the frame parallel with the oscillatory axis of the operating rod, and radially and longitudinally movable means upon the operating rod for holding a tooth model.
19. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a series of tapering measuring rods in the frame concentrically disposed with relation to the oscillatory axis of the operating rod and parallel therewith, and radially and longitudinally movable means upon the operating rod for holding a tooth model.
20. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a series of tapering measuring rods of individually varying diameters mounted in the frame parallel with the oscillatory axis of the operating rod, and longitudinally movable means upon the operating rod for holding a tooth model.
21. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a series of tapering measuring rods of individually varying diameters mounted in the frame parallel with the oscillatory axis of the operating rod, and longitudinally and radially adjustable means upon the op erating rod for holding a tooth model.
22. In a machine for contouring crown matrices, the combinationwith the frame, operating rod, and means for oscillating the rod, of a measuring rod fixed in the frame parallel with the oscillatory axis of the operating rod and provided with a taper corresponding with the degree of inclination of the operating rod, and a longitudinally movable arm upon the operating rod adapted to hold a tooth model.
23. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod fixed in the frame parallel with the oscillatory axis of the rod and provided with a taper corresponding with the degree of inclination of the operating rod, and a longitudinally and radially movable arm upon the operating rod adapted to hold a tooth model.
24. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod fixed in the frame parallel with the oscillatory axis of the operating rod and provided with a taper toward its end corresponding with the degree of inclination of the operating rod, a movable arm upon the operating rod, a tooth model. removably mounted in the arm whose neck circumference equals the circumference of the end of the measuring rod.
25. In a machine for contouring crown matrices, the combination with the frame, operating rod, and means for oscillating the rod, of a measuring rod fixed in the frame parallel with the oscillatory axis of the operating rod and provided with a taper toward its end corresponding with the degree of inclination of the operating rod, a movable arm upon the operating rod, a tooth model removably mounted in the arm and whose neck circumference equals thecircum: ference of the measuring rod, and a loop adapted to surround and friotionally engage an intermediate portion of the measuring rod.
26. In a machine for contouring crown matrices, the combination with a flask for fused metal, of means for supporting a tooth model within the flask, and means for imparting a compound movementto the model supporting means.
27. In a machine for contouring crown matrices, the combination with a flask for fused metal, of a tooth model within the flask, and means for imparting a compound movement to the model to create an opening in the fused metal having an increased area equal to the thickness of a crown.
In testimony whereof I have afiixed my signature in presence of two witnesses.
FERNANDO O. JAQUES, JR. Witnesses:
HORATIO E. BELLows, TILLIAM E. TEFFT.
US47502709A 1909-01-29 1909-01-29 Machine for contouring crown-matrices. Expired - Lifetime US939261A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US47502709A US939261A (en) 1909-01-29 1909-01-29 Machine for contouring crown-matrices.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US47502709A US939261A (en) 1909-01-29 1909-01-29 Machine for contouring crown-matrices.

Publications (1)

Publication Number Publication Date
US939261A true US939261A (en) 1909-11-09

Family

ID=3007680

Family Applications (1)

Application Number Title Priority Date Filing Date
US47502709A Expired - Lifetime US939261A (en) 1909-01-29 1909-01-29 Machine for contouring crown-matrices.

Country Status (1)

Country Link
US (1) US939261A (en)

Similar Documents

Publication Publication Date Title
US2842845A (en) Dowel pin relator
US939261A (en) Machine for contouring crown-matrices.
US2911722A (en) Dental tray
US7172424B2 (en) Method of mounting removable restoration tooth by using a standardized set of inner crown units, outer crown units, and device units for conforming abutment
US2234411A (en) Device for making dental plates
US2270561A (en) Method of and apparatus for making dentures
US2411001A (en) Dental precision bridge device
US2154499A (en) Dental jacket
US3796407A (en) Apparatus for molding curved pipe
US2733508A (en) Apparatus for boxing-in impressions
US2250058A (en) Dental implement
US1204166A (en) Apparatus for making artificial tooth-crowns.
US2597929A (en) Impression device for making dentures
CN210330776U (en) Dental crown positioning device
US1271161A (en) Dental articulator.
US2545521A (en) Tool for cutting dentures
US2447287A (en) Adjustable intraoral tracer
US533195A (en) Dentist s grown swaging apparatus
US932133A (en) Machine for contouring crown-matrices.
CN217793282U (en) Adjustable positioning skull traction head hoop
US595068A (en) Dental
US2012679A (en) Apparatus for forming castings
US605223A (en) Trell
US1304087A (en) Apparatus fob the manufacture op dental crowns
US1322386A (en) Dental articulator