CA1042563A - Dental x-ray machine - Google Patents
Dental x-ray machineInfo
- Publication number
- CA1042563A CA1042563A CA231,329A CA231329A CA1042563A CA 1042563 A CA1042563 A CA 1042563A CA 231329 A CA231329 A CA 231329A CA 1042563 A CA1042563 A CA 1042563A
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- CA
- Canada
- Prior art keywords
- platform
- cam
- base
- ray
- 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
Links
- 230000033001 locomotion Effects 0.000 claims abstract description 43
- 210000002455 dental arch Anatomy 0.000 claims abstract description 27
- 230000007423 decrease Effects 0.000 claims description 8
- 230000008093 supporting effect Effects 0.000 claims description 7
- 230000003247 decreasing effect Effects 0.000 claims description 3
- 230000000694 effects Effects 0.000 claims description 3
- 230000007246 mechanism Effects 0.000 description 14
- 210000003128 head Anatomy 0.000 description 10
- 238000000034 method Methods 0.000 description 3
- 239000011435 rock Substances 0.000 description 3
- 230000000875 corresponding effect Effects 0.000 description 2
- 210000001061 forehead Anatomy 0.000 description 2
- 230000003213 activating effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000013341 scale-up Methods 0.000 description 1
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment
- A61B6/50—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment specially adapted for specific body parts; specially adapted for specific clinical applications
- A61B6/501—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment specially adapted for specific body parts; specially adapted for specific clinical applications for diagnosis of the head, e.g. neuroimaging or craniography
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment
- A61B6/04—Positioning of patients; Tiltable beds or the like
- A61B6/0478—Chairs
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment
- A61B6/50—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment specially adapted for specific body parts; specially adapted for specific clinical applications
- A61B6/51—Apparatus or devices for radiation diagnosis; Apparatus or devices for radiation diagnosis combined with radiation therapy equipment specially adapted for specific body parts; specially adapted for specific clinical applications for dentistry
- A61B6/512—Intraoral means
Landscapes
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Medical Informatics (AREA)
- Engineering & Computer Science (AREA)
- Optics & Photonics (AREA)
- Pathology (AREA)
- Veterinary Medicine (AREA)
- Public Health (AREA)
- Biophysics (AREA)
- High Energy & Nuclear Physics (AREA)
- General Health & Medical Sciences (AREA)
- Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
- Animal Behavior & Ethology (AREA)
- Physics & Mathematics (AREA)
- Radiology & Medical Imaging (AREA)
- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
- Molecular Biology (AREA)
- Surgery (AREA)
- Dentistry (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Neurology (AREA)
- Neurosurgery (AREA)
- Apparatus For Radiation Diagnosis (AREA)
Abstract
DENTAL X-RAY MACHINE
Abstract of the Disclosure A dental x-ray machine for taking a panoramic x-ray of a patient's dental arch having located beneath the seat of the patient chair, the apparatus for rotating the x-ray source and film holder around the head of the patient. Also located below the chair seat is a cam controlled X-Y drive for driving the rotating x-ray source and film holder through a predetermined closed path of travel which, together with the rotation of the x-ray source produces a net movement that approximates the curve of the dental arch. The size of the pattern traced by the X-Y
drive is continuously variable for adapting the pattern to dental arches of all sizes.
Abstract of the Disclosure A dental x-ray machine for taking a panoramic x-ray of a patient's dental arch having located beneath the seat of the patient chair, the apparatus for rotating the x-ray source and film holder around the head of the patient. Also located below the chair seat is a cam controlled X-Y drive for driving the rotating x-ray source and film holder through a predetermined closed path of travel which, together with the rotation of the x-ray source produces a net movement that approximates the curve of the dental arch. The size of the pattern traced by the X-Y
drive is continuously variable for adapting the pattern to dental arches of all sizes.
Description
`" 1~4Z563 The present invention relates generally to a dental x-ray machine for taking a panoramic or full mouth x-ray of the patient's teeth. More specifically, the present invention relates to a dental x-ray ~or taking full mouth x-rays by rotating the x-ray source and x-ray film about the head of the patient through a path of travel which closely approximates the shape of the dental arch.
Various techniques and apparatus for taking a full mouth x-ray are well known in the art. When taking a full mouth x-ray, it is important that the x-ray source and film be moved about the head of the patient through a path of travel which closely `~--parallels the dental arch with the depth of focus between the x-ray source and film following along a path on the dental arch.
In this way, only the particular tooth being radiographed remains in focus. The difficulty is that the dental arch is not easily approximated so that systems of the prior art only generally followed the dental arch by rotation around a aouble or triple center of rotation or utilized an ellipsograph-type drive to move the x-ray source and film around the outline of an ellipse. -Other systems required that the patient be moved laterally in order to change the center of rotation or stepped the arive through several centers of rotation in an attempt to approximate the shape of the dental arch. ~ -The size of the dental arch varies from patient to patient and with the exception of the ellipsograph type drive~ the apparatus of the prior art could only adjust the pattern size in very coarse steps requiring considerable effort on the part of the operator.
Prior art panoramic x-ray machines also located the drive mechanism as well as the high voltage power supply for the x-ray source above the head of the patient. This re~uired `
16! 4'~5~3 relatively massive support columns and in some cases the structure had to be wall mounted to prevent toppling of the top heavy apparatus. Wall mounting is also necessary in order to dampen any vibration produced by the drive as such vibrations will reduce the quality of the x-ray picture. Vibrations are caused, in particular, by drives ~, of the prior art in which the mechanism is stepped from one center of rotation to another.
The present invention relates to dental X-ray-apparatus of the type for taking a full mouth X-ray by orbiting an X-ray source and X-ray film holder about the head of a patient along an orbital path which follows the shape of the patient's dental arch, comprising a) a fixed base supporting a patient chair; b) a platform movable with respect to the base and chair through a closed path ~~
of travel in an X-Y plane beneath the chair; c) a column ; upstanding from the platform supporting the X-ray source and X-ray film holder, the column being rotatable about a vertical axis of rotation while being transported through j the closed path of travel by the platform such that the X-ray source and X-ray film holder are orbited about the ; head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by -the platform and cooperating with the base for moving the platform with respect to the base through the closed path of travel.
Such apparatus overcomes the drawbacks of the prior art by locating and X-Y drive mechanism and the high voltage power supply in the base of the apparatus beneath the seat of the patient's chair thus avoiding any massive jib/ ~?
', ' ' ' ' ' . ' 1~34;~5~3 overhead structure and the need for wall mounting. The X-Y drive mechanism is controlled by a cam which produces a smooth motion and this motion, when coupled with rota-tion of the X-ray source and fllm holder about the head of the patient, produces a net movement which allows the focal plane between the X-ray source and film to follow ~
along the shape of the dental arch. The cam drive also ~ -allows the size of the pattern to be quickly and easily changed in an infinite number of steps over the entire adjustment range.
Another feature of a particular embodiment is an automatic apex adjustment which displaces the X-ray axis of rotation towards or away from a fixed reference point whenever the pattern size is respectively decreased or increased. This aliows positioning both the adult and -child patient at the same fixed reference point correspond-ing to the front of the patient's mouth so that the X-ray source and film holder will be properly oriented to the ~
patient regardless of his or her size. - -The advantages and characterizing feature of ~ i the present invention will become more apparent upon consideration of the following detailed description thereof when taken in connection with the accompanying drawings depicting the same.
, Figure 1 is a side elevation view showing the dental X-ray,apparatus of the present in-vention;
Figure 2 is a front elevation view of the apparatus base, partly away and in section, showing X-Y
';
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. ~ . .
j ib/J ~
.: ..
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1~42S63 drive on an enlarged scale;
Figure 3 is a plan view of the X-Y drive with portions removed for clarity;
Figure 4 is an elevation view on an enlarged scale of a portion of the Y-reaction arm of the drive;
Figure 5 is a view similar to Figure 3 with still further portions removed for clarit~ to show the X-reaction arm and apex adjustment mechanism;
Figure 6 is an elevation view on an enlarged scale of an apex compensating mechanism associated with ;~
the X-reaction arm; and -.
Figure 7 is a plot showing the X-Y drive path of travel and the net movement generated by the apparatus .
when taking an X-ray of a large and a small dental arch. ~
Referring to the drawings, Figure 1 shows the ~` .
X-ray appa.ratus of the present invention generally indi-cated at 10. .
"~ jib/`)C' ~ 5 ~
,, j,.
1~4;~563 The apparatus includes a supporting base 12, a patient chair 14 carried by the base, and a column 16 upstanding from the base and supported for rotation about a vertical axis passing generally through the seat of the patient chair. Column 16 is generally L-shaped wherein the horizontally deposed leg 17 passes beneath the seat of the chair. At the top of column 16 is an x-ray source 18 and an x-ray film cassette 20. The cassette is supported on a curved outwardly extending horizontal arm 22, so that the patient to be x-rayed can be positioned between the x-ray source and the film cassette. The upright structure indicated at 24 at the front of the dental chair and the chin and forehead rests 26, 28 respectively are used for properly positioning the patient. It should be appreciated, that the chin and forehead rests define a fixed reference point for properly positioning the head of the patient for the x-ray procedure. In order to bring patients of different sizes to this reference point, chair 14 can be raised or lowered and -the backrest 30 moved on ways 32 front-to-back of the chair.
A transformer 13 and other electrical components for activating the x-ray source are located within base 12 at any convenient location, preferably at a rear portion thereof. -A flexible electrical cable 15 extends from the transformer and passes up through column 16 (including leg 17) for connecting the power supply to the x-ray source. -Disposed within base 12 is the means for rotating the column about its vertical axis and for moving the axis of rotation through a closed path of travel in the X-Y plane.
As shown in Figure 2, base 12 is generally U-shaped in cross-section having a horizontal base leg 34 and upstanding sides 36 a and b. The base or horizontal leg 34 is adapted to rest . . . . , ~ .
' 1~4;~S~3 on a floor surface and is provided with a pair of spaced parallel ways 3~ which are oxiented along the X axis of the base, that is, front-to-back. Slidably carried on these ways is a carriage 40.
Carriage 40 is also U-shaped in cross-section having a base 42 and upstanding front and rear wall members 44, only the rear one of which is shown in Figure 2. The carriage in turn, carries adjacent the upper end of each wall 44 a pair of parallel ways 46. Ways 46 are oriented normal to ways 38 and are aligned generally along the Y-axis of base 12 or side-to-side. Slidably carried on ways 46 is a platform 48. Due -to the orientation of ways 38 and 46, it should be apparent that platform 48 can be moved along both the X and Y axis of base 12.
Suspended from platform 48 are a plurality of columns -50 which in turn support a plate 52 in spaced relationship from platform 48. Disposed between the platform and the plate and carried in part by the plate are the various mechanisms for driving the platform through a closed path of travel in the X-Y plane.
As shown in Figure 2, an upright shaft 54 is supported by and is journaled to platform 48 and plate 52 by means of bearings 51, 53 respectively. With this arrangement, the shaft is ~ree to rotate about its vertical axis while the axis is -being transported through a closed path of travel in the X-Y
plane~ It should be appreciated that the horizontal leg 17 of column 16 is fixed at one end to the portion 56 of the shaft located above platform 48. The portion 58 of the shaft located between platform 4~ and plate 52 is fixed to a cam member 60.
The cam is generally disc-shaped having endless grooves 62 and 64 cut into the top and bottom surfaces respectively .. . . . . . . .
' ' '1 '' . ~ ' '' ' 1~42S63 of the disc, These grooves comprise the cam surfaces for programming the motions of the platform as further set out herein below.
A drive motor 66 fixed to plate 52 rotates the cam and therefore, shaft 54 by means of a drive belt 68 which engages around the periphery of the cam.
In order to translate the movement of cam surfaces 62, 64 into motion of platform 48 through a closed path of travel in the X-Y plane, a cam follower is associated with each of --the cam grooves. In this respect, cam groove 62 and its associated cam follower cooperate to move platform 48 through the Y component of travel (side-to-side) whereas cam groove 64 and its associated cam follower cooperate to mo~e platform 48 through the X component of travel lfront-to-back). The net result is movement of platform 48 through a closed path of travel in the X-Y plane.
~ Referring to Figures 2, 3 and 4 the cam follower associated -with groove 62 includes a horizontal pick-off arm 70, which is journaled at one end 72 to platform 48 by means of a vertical shaft 74 extending between the platform and plate 52 (Figure ~ ~
Various techniques and apparatus for taking a full mouth x-ray are well known in the art. When taking a full mouth x-ray, it is important that the x-ray source and film be moved about the head of the patient through a path of travel which closely `~--parallels the dental arch with the depth of focus between the x-ray source and film following along a path on the dental arch.
In this way, only the particular tooth being radiographed remains in focus. The difficulty is that the dental arch is not easily approximated so that systems of the prior art only generally followed the dental arch by rotation around a aouble or triple center of rotation or utilized an ellipsograph-type drive to move the x-ray source and film around the outline of an ellipse. -Other systems required that the patient be moved laterally in order to change the center of rotation or stepped the arive through several centers of rotation in an attempt to approximate the shape of the dental arch. ~ -The size of the dental arch varies from patient to patient and with the exception of the ellipsograph type drive~ the apparatus of the prior art could only adjust the pattern size in very coarse steps requiring considerable effort on the part of the operator.
Prior art panoramic x-ray machines also located the drive mechanism as well as the high voltage power supply for the x-ray source above the head of the patient. This re~uired `
16! 4'~5~3 relatively massive support columns and in some cases the structure had to be wall mounted to prevent toppling of the top heavy apparatus. Wall mounting is also necessary in order to dampen any vibration produced by the drive as such vibrations will reduce the quality of the x-ray picture. Vibrations are caused, in particular, by drives ~, of the prior art in which the mechanism is stepped from one center of rotation to another.
The present invention relates to dental X-ray-apparatus of the type for taking a full mouth X-ray by orbiting an X-ray source and X-ray film holder about the head of a patient along an orbital path which follows the shape of the patient's dental arch, comprising a) a fixed base supporting a patient chair; b) a platform movable with respect to the base and chair through a closed path ~~
of travel in an X-Y plane beneath the chair; c) a column ; upstanding from the platform supporting the X-ray source and X-ray film holder, the column being rotatable about a vertical axis of rotation while being transported through j the closed path of travel by the platform such that the X-ray source and X-ray film holder are orbited about the ; head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by -the platform and cooperating with the base for moving the platform with respect to the base through the closed path of travel.
Such apparatus overcomes the drawbacks of the prior art by locating and X-Y drive mechanism and the high voltage power supply in the base of the apparatus beneath the seat of the patient's chair thus avoiding any massive jib/ ~?
', ' ' ' ' ' . ' 1~34;~5~3 overhead structure and the need for wall mounting. The X-Y drive mechanism is controlled by a cam which produces a smooth motion and this motion, when coupled with rota-tion of the X-ray source and fllm holder about the head of the patient, produces a net movement which allows the focal plane between the X-ray source and film to follow ~
along the shape of the dental arch. The cam drive also ~ -allows the size of the pattern to be quickly and easily changed in an infinite number of steps over the entire adjustment range.
Another feature of a particular embodiment is an automatic apex adjustment which displaces the X-ray axis of rotation towards or away from a fixed reference point whenever the pattern size is respectively decreased or increased. This aliows positioning both the adult and -child patient at the same fixed reference point correspond-ing to the front of the patient's mouth so that the X-ray source and film holder will be properly oriented to the ~
patient regardless of his or her size. - -The advantages and characterizing feature of ~ i the present invention will become more apparent upon consideration of the following detailed description thereof when taken in connection with the accompanying drawings depicting the same.
, Figure 1 is a side elevation view showing the dental X-ray,apparatus of the present in-vention;
Figure 2 is a front elevation view of the apparatus base, partly away and in section, showing X-Y
';
` ' ., .~
. ~ . .
j ib/J ~
.: ..
. ` r. ' : . .
1~42S63 drive on an enlarged scale;
Figure 3 is a plan view of the X-Y drive with portions removed for clarity;
Figure 4 is an elevation view on an enlarged scale of a portion of the Y-reaction arm of the drive;
Figure 5 is a view similar to Figure 3 with still further portions removed for clarit~ to show the X-reaction arm and apex adjustment mechanism;
Figure 6 is an elevation view on an enlarged scale of an apex compensating mechanism associated with ;~
the X-reaction arm; and -.
Figure 7 is a plot showing the X-Y drive path of travel and the net movement generated by the apparatus .
when taking an X-ray of a large and a small dental arch. ~
Referring to the drawings, Figure 1 shows the ~` .
X-ray appa.ratus of the present invention generally indi-cated at 10. .
"~ jib/`)C' ~ 5 ~
,, j,.
1~4;~563 The apparatus includes a supporting base 12, a patient chair 14 carried by the base, and a column 16 upstanding from the base and supported for rotation about a vertical axis passing generally through the seat of the patient chair. Column 16 is generally L-shaped wherein the horizontally deposed leg 17 passes beneath the seat of the chair. At the top of column 16 is an x-ray source 18 and an x-ray film cassette 20. The cassette is supported on a curved outwardly extending horizontal arm 22, so that the patient to be x-rayed can be positioned between the x-ray source and the film cassette. The upright structure indicated at 24 at the front of the dental chair and the chin and forehead rests 26, 28 respectively are used for properly positioning the patient. It should be appreciated, that the chin and forehead rests define a fixed reference point for properly positioning the head of the patient for the x-ray procedure. In order to bring patients of different sizes to this reference point, chair 14 can be raised or lowered and -the backrest 30 moved on ways 32 front-to-back of the chair.
A transformer 13 and other electrical components for activating the x-ray source are located within base 12 at any convenient location, preferably at a rear portion thereof. -A flexible electrical cable 15 extends from the transformer and passes up through column 16 (including leg 17) for connecting the power supply to the x-ray source. -Disposed within base 12 is the means for rotating the column about its vertical axis and for moving the axis of rotation through a closed path of travel in the X-Y plane.
As shown in Figure 2, base 12 is generally U-shaped in cross-section having a horizontal base leg 34 and upstanding sides 36 a and b. The base or horizontal leg 34 is adapted to rest . . . . , ~ .
' 1~4;~S~3 on a floor surface and is provided with a pair of spaced parallel ways 3~ which are oxiented along the X axis of the base, that is, front-to-back. Slidably carried on these ways is a carriage 40.
Carriage 40 is also U-shaped in cross-section having a base 42 and upstanding front and rear wall members 44, only the rear one of which is shown in Figure 2. The carriage in turn, carries adjacent the upper end of each wall 44 a pair of parallel ways 46. Ways 46 are oriented normal to ways 38 and are aligned generally along the Y-axis of base 12 or side-to-side. Slidably carried on ways 46 is a platform 48. Due -to the orientation of ways 38 and 46, it should be apparent that platform 48 can be moved along both the X and Y axis of base 12.
Suspended from platform 48 are a plurality of columns -50 which in turn support a plate 52 in spaced relationship from platform 48. Disposed between the platform and the plate and carried in part by the plate are the various mechanisms for driving the platform through a closed path of travel in the X-Y plane.
As shown in Figure 2, an upright shaft 54 is supported by and is journaled to platform 48 and plate 52 by means of bearings 51, 53 respectively. With this arrangement, the shaft is ~ree to rotate about its vertical axis while the axis is -being transported through a closed path of travel in the X-Y
plane~ It should be appreciated that the horizontal leg 17 of column 16 is fixed at one end to the portion 56 of the shaft located above platform 48. The portion 58 of the shaft located between platform 4~ and plate 52 is fixed to a cam member 60.
The cam is generally disc-shaped having endless grooves 62 and 64 cut into the top and bottom surfaces respectively .. . . . . . . .
' ' '1 '' . ~ ' '' ' 1~42S63 of the disc, These grooves comprise the cam surfaces for programming the motions of the platform as further set out herein below.
A drive motor 66 fixed to plate 52 rotates the cam and therefore, shaft 54 by means of a drive belt 68 which engages around the periphery of the cam.
In order to translate the movement of cam surfaces 62, 64 into motion of platform 48 through a closed path of travel in the X-Y plane, a cam follower is associated with each of --the cam grooves. In this respect, cam groove 62 and its associated cam follower cooperate to move platform 48 through the Y component of travel (side-to-side) whereas cam groove 64 and its associated cam follower cooperate to mo~e platform 48 through the X component of travel lfront-to-back). The net result is movement of platform 48 through a closed path of travel in the X-Y plane.
~ Referring to Figures 2, 3 and 4 the cam follower associated -with groove 62 includes a horizontal pick-off arm 70, which is journaled at one end 72 to platform 48 by means of a vertical shaft 74 extending between the platform and plate 52 (Figure ~ ~
2). Fixed to pick-off arm 70 at a given point along the arm -is a cam follower 76, best seen in Figure 4, which rides in cam groove 62. The distance between cam follower 76 and shaft 74 is a fixed dimension and as the cam rotates under the fixed cam follower, the pick-off arm rocks about its journaled end 72 depending upon the radial distance of the cam groove from shaft 54.
As shown in Figures 3 and 4, pick-off arm 70 is provided with a lead screw 78 which drives a nut 80 along the arm to increase or decrease respectively the linear distance of the nut from shaft 74. Upstanding from nut 80 is a pin 82 which is in turn, journaled to one end of a ri~id reaction arm 84, 1~4Z563 The other end of reaction arm ~ is slidably mounted on a way 86 carried at the top of upstanding base side 36a, way 86 being alligned generally parallel to ways 38 (Figures 2 and 3).
With this arrangement, reaction arm 8~ is free to move along the x-axis of the base, but is fixed against movement in the Y direction. Thus, as cam disc 60 is rotated and the radial distance of cam groove 62 changes with respect to shaft 54, the reaction arm will force platform 48 to move to the left or the right as viewed in Figures 2 and 3. For example, as the radial distance of cam groove 62 from shaft 54 increases, the entire mechanism supported by platform 48 will shift to ~ -the left as viewed in Figure 3 and conversely, will shift to the right as viewed in Figure 3 when the radial distance decreases. Moreover, as described more fully hereinbelow the effect of the throw of the cam groove 62 can be increased or decreased proportionally by moving nut 80 respectively away ~-from or towards, shaft 74 in order to change the overall size of platform movement in the Y direction.
A somewhat similar arrangement is provided for translating the rotational movement of cam groove 64 into movement of platform 48 along the X axis of base 12. In this respect, Figure 5 is a plan view of the X-Y mechanism similar to Figure
As shown in Figures 3 and 4, pick-off arm 70 is provided with a lead screw 78 which drives a nut 80 along the arm to increase or decrease respectively the linear distance of the nut from shaft 74. Upstanding from nut 80 is a pin 82 which is in turn, journaled to one end of a ri~id reaction arm 84, 1~4Z563 The other end of reaction arm ~ is slidably mounted on a way 86 carried at the top of upstanding base side 36a, way 86 being alligned generally parallel to ways 38 (Figures 2 and 3).
With this arrangement, reaction arm 8~ is free to move along the x-axis of the base, but is fixed against movement in the Y direction. Thus, as cam disc 60 is rotated and the radial distance of cam groove 62 changes with respect to shaft 54, the reaction arm will force platform 48 to move to the left or the right as viewed in Figures 2 and 3. For example, as the radial distance of cam groove 62 from shaft 54 increases, the entire mechanism supported by platform 48 will shift to ~ -the left as viewed in Figure 3 and conversely, will shift to the right as viewed in Figure 3 when the radial distance decreases. Moreover, as described more fully hereinbelow the effect of the throw of the cam groove 62 can be increased or decreased proportionally by moving nut 80 respectively away ~-from or towards, shaft 74 in order to change the overall size of platform movement in the Y direction.
A somewhat similar arrangement is provided for translating the rotational movement of cam groove 64 into movement of platform 48 along the X axis of base 12. In this respect, Figure 5 is a plan view of the X-Y mechanism similar to Figure
3 only with some parts removed for clarity, such as pick-off arm 70, reaction arm 84 and portions of cam disc 60.
Figure 5 shows a second, generally L-shaped pick-off arm 88 having legs 90 and 92. At one end of the pick-off arm (leg 90) i9 a cam follower 94 which extends up into cam groove 64 cut into the bottom surface of cam disc 60. Pick-off arm ~ -88 is also journaled intermediate its ends to vertical shaft -74 so that the distance from the shaft to cam follower 94 is a fixed distance. The other leg 92 of the L-shaped pick-off arm carries a lead screw 96 which in turn drives a nut 98 ~,. .: ,. : ::
~. , . , ::
.... . . . . .
.
~6~)4ZS63 (Figure 3). The ad;ustment of this nut along leg ~2 accomplishes a result similar to the adjustment of nut 80 along pick-off arm 70. In other words, such movement will either scale up or down the effect of a throw o cam groove 64 depending upon whether the nut is moved respectively away from or towards shaft 74.
Extending horizontally from upstanding side 36b of the base is a fixed member 100 only a portion of which is shown in Figure 5. Since this member is fixed to side 36b, it ~
represents a ground station. A way 102 is carried on member 100, the way being oriented generally parallel to ways 46 and -normal to ways 38 (Figures 2 and 3). . Slidably carried on way 102 is an apex adjustment means generally indicated at -~
104. I~hile this means will be described more fully herein - -below, it i5 sufficient for the present merely to say that ~ ;
the apex adjustment means 104 is also pinned to nut 98 so that it is similar in one aspect to reaction arm 84. That is, means 104 is free to slide with the X-Y drive mechanism in either direction along the Y axis of base 12, but it is fixed by member 100 against movement in the X direction. Thus, any variation in the radial distance of cam groove 64 from shaft 54 is translated into movement of platorm 48 in the ~ direction.
For example, as the radial distance decreases, the L-shaped pick-off arm 88 will rock clockwise about shaft 74 causing the platform 48 to shift toward the top o the Figure as view in Figures 3 and 5 which is towards the back of the apparatus, Conversely, any incxease in the radial distance of the cam groove 64 from shaft 54 will cause the L-shaped arm to rock counter-clockwise about shaft 74 causing the platform to shift direction towards the bottom of the Figure as view Figures 3 and 5 which is toward the front of the apparatus.
. .
~)4;~563 Thus, the mechanism described herein above cooperates in response to rotation of cam disc 60 to move platform 48 and therefore, the axis of rotation of column 16 in a closed path of travel in the X-Y plane. As column 16 is connected to shaft 54, rotation of cam 60 will likewise, rotate the column. For example, the path of travel generated by the X-Y
drive is shown in Figure 7 at 130~ Only one half the curve is shown and it should be understood that the missing portion is a mirror image of that shown. It should be appreciated that reference 130 represents the path of travel of shaft 54 and therefore, the axis of rotation of column 16. The curve ~ -132 in heavy solid line represents a locus of points within the depth of focus and includes both the mandibular joints and the dental arch. Points 1-8 represent various positions of the x-ray film during the x-ray procedure and are along a path generally parallel to the dental arch. The position of the x-ray source, while not shown is understood to be on the far side of the axis of rotation from points 1-8. From -Figure 7, it should be apparent that the rotational movement o~ the column, when associated with the movement in the X-Y
plane of platform 48 from which the column upstands, produces -~
a ne* movement of the x-ray source 18 and film cassette 20 along a path of travel which parallels the dental arch. As shown by heavy solid line 132 in Figure 7, the x-ray is taken - -starting at the left mantibular joint Li. It then moves inward to x-ray the last molar L4 on the left side and then along the dental arch to the last molar R4 on the right side of the mouth and then outward to x-ray the right mandibular joint Rl.
As previously stated, the size of the pattern traveled by the platform can be changed by moving the points of the pick-o~fs defined by nuts 80 and 98. This is accomplished by the simultaneous rotation of lead screws 78 and 96 to move ~`
, . . . . . . . ............. . . . ............... .
. . . . . . . .
, 1~4ZS63 `
the nuts toward or away from shaft 74. For this purpose, a second drive motor 106 is mounted on plate 52 ~Figures 3 and ~ -5). When actuated, this motor drives both lead screws through a system of bevel gears 108. Aceuation of the motor can be accomplished by any suitable means (not shown) such as a hand controller. It should be appreciated that such an arrangement allows an infinite adjustment of the pattern size within the full limits of the adjustment range.
As the pattern size is adjusted, it is important that a common reference point be maintained for all pattern sizes. : ~;
Preferably, this common point is located at the front of the dental arch, as defined, for example, by the chin and head rests 26, 28 respectfully, at the front of the dental chair which are used for properly positioning the patient. For example, Figure 7 - shows at 130 a path of travel as may be generated by the mech-anism for making a full mouth dental x-ray of the dental arch of an adult. Reference 130a line shows a smaller, symmetrical, pattern of the path generated for making an x-ray of a younger -person whose dental arch is included in the light solid line curve shown at 132A. The point indicated at A is common to both patterns and is located at the front or apex of the -dèntal arch.
Thus, when the size of the pattern is changed, it is .- :
necessary to provide an ad;ustment which maintains the position of point A. This i5 accomplished by an apex ad~uster which shifts the X-Y path of travel towards point A when a child i9 in the chair and away from point A when an adult i~l ln the chair.
The apex ad;uster generally indicated at 104 can be seen in plan view in Figures 3 and 5, and in elevation view in Figures 2 and 6. As described hereinabove, there is a way I02 mounted on member 100, which in turn is attached to the db/
.
, .
, ground of the apparatus. Also as previous stated, way 102 i~
oriented parallel to ways 46 and normal to way 38 (Figure 3).
Slidably mounted on way 102 is a block 110. The ends 112 of the block (Figure 6) are mitered and slidably fit into a pair of horizontal side supports 114. Supports 114 extend in canti-lever fashion from a mounting bracket 116 which depends from platform 48 (Figures 2 and 3). With the arrangement described thus far, it should be appreciated that block 110 is free to sllde with platform 48 in the Y direction of the chair, but that the block, being on way 10~, is fixed from sliding in the X direction. However, due to the sliding relationship between block 110 and side supports 114, the supports and platform 48 can slide with respect to the block in the X direction.
To accomplish the apex ad~ustment, which requires move-ment in the X direction or front-to-back, Figures S and 6 show that block llO contains a diagonal cam groove 118 which slid-ably retains a follower 120. The follower depends from nut 98 and is therefore tied, via leg 92 and shaft 74, to platform 48 -with the screw permitting an adjustment of the nut wlth respect to the platform. Cam groove 118 is oriented generally on the diagonal of block 110 to accomplish the apex ad~ustment as set out hereinbelow.
As previously stated, rotating screw 96 to move nut 98 with respect to platform 48 to the left or the right as viewed in the Figures, will respectively increase or decrease the size of the x component at the pattern. Movement of the nut will in turn drive follower 120 agalnst one side or the other of inclined slot 118. The pressure of follower 120 against the side of slot 118 cannot be relieved by a corresponding movement of platform 48 ln the Y direction as move~ent in the Y direction is prevented by reaction arm a4.. Consequently, such pressure is ~3 .
db/
1(D4;~563 relieved by follower 120 riding up or down the inclined slot as viewed in Figures 3 and 5. As follower 120 i9 tied to plat-form 48, movement of the Eollower in the X direction produces a like movement of platform 48, wherein the platform, bracket 116 and side supports 114 slide over block 1lO in the X direction.
By way of example, if nut 98 is moved to the left,-as viewed in the Figures, to increase the size of the pattern, follower 120 will be forced up the inclined slot 118 ~igures --3 and 5) moving platform 48 towards the back of the apparatus and away from the reference defined by chin and head rests 26, 28 respectfully. If the nut moves in the opposite direction to decrease the pattern size, follower 120 will be forced down the inclined slot moving platform 48 towards the reference point defined by the chin and headrests. Such movement towards and away from the chin and headrests maintains the key position of the apex of the pattern at point A (Figure 7~ as the pattern size is changed.
Thus, it should be appreciated that the present invention accomplishes its present objects in providing a dental x-ray apparatus for taking full mouth x-rays which is a self-contained ;
- unit requiring no installation or wall support. The apparatus has-the capability of making an lnfinite ad~ustment af the size of the-pattern followed by the x-ray soùrce and the film holder about the head of the patient. Such change in the pattern size is accomplished quickly and easily while maintaining a common reference point with respect to all of the pattern slzes. The ma~ority of the weight of the apparatus, made up by the trans-former and other electrical components and the X-Y drive mechan-ism, is located in the base of the apparatus, so the apparatus can be made free standing and there is no need to wall supports for mounting the apparatus.
: ' ~ 1~ :
db/
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1~142563 Since the present invention concerns primarily the general arrangement of the x-ray apparatus together with X-Y
drive and apex adjustment as described herein, no mention is made of other features well-known in the art which are essential to the operation of a panorama dental x-ray machine of the type described. For example, it is well-known that as column 16 is rotated about a patient, means must be provided to accomplish an independent rotation of x-ray film cassette 20 in order to achieve proper exposure of the x-ray film. The rotation must be in a particular time sequence with the movement of arm 16, but as such a mechanism forms no part of the present invention, -none has been described herein and the apparatus to accomplish this has been omitted from the drawing for purposes of simplification.
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. . .
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Figure 5 shows a second, generally L-shaped pick-off arm 88 having legs 90 and 92. At one end of the pick-off arm (leg 90) i9 a cam follower 94 which extends up into cam groove 64 cut into the bottom surface of cam disc 60. Pick-off arm ~ -88 is also journaled intermediate its ends to vertical shaft -74 so that the distance from the shaft to cam follower 94 is a fixed distance. The other leg 92 of the L-shaped pick-off arm carries a lead screw 96 which in turn drives a nut 98 ~,. .: ,. : ::
~. , . , ::
.... . . . . .
.
~6~)4ZS63 (Figure 3). The ad;ustment of this nut along leg ~2 accomplishes a result similar to the adjustment of nut 80 along pick-off arm 70. In other words, such movement will either scale up or down the effect of a throw o cam groove 64 depending upon whether the nut is moved respectively away from or towards shaft 74.
Extending horizontally from upstanding side 36b of the base is a fixed member 100 only a portion of which is shown in Figure 5. Since this member is fixed to side 36b, it ~
represents a ground station. A way 102 is carried on member 100, the way being oriented generally parallel to ways 46 and -normal to ways 38 (Figures 2 and 3). . Slidably carried on way 102 is an apex adjustment means generally indicated at -~
104. I~hile this means will be described more fully herein - -below, it i5 sufficient for the present merely to say that ~ ;
the apex adjustment means 104 is also pinned to nut 98 so that it is similar in one aspect to reaction arm 84. That is, means 104 is free to slide with the X-Y drive mechanism in either direction along the Y axis of base 12, but it is fixed by member 100 against movement in the X direction. Thus, any variation in the radial distance of cam groove 64 from shaft 54 is translated into movement of platorm 48 in the ~ direction.
For example, as the radial distance decreases, the L-shaped pick-off arm 88 will rock clockwise about shaft 74 causing the platform 48 to shift toward the top o the Figure as view in Figures 3 and 5 which is towards the back of the apparatus, Conversely, any incxease in the radial distance of the cam groove 64 from shaft 54 will cause the L-shaped arm to rock counter-clockwise about shaft 74 causing the platform to shift direction towards the bottom of the Figure as view Figures 3 and 5 which is toward the front of the apparatus.
. .
~)4;~563 Thus, the mechanism described herein above cooperates in response to rotation of cam disc 60 to move platform 48 and therefore, the axis of rotation of column 16 in a closed path of travel in the X-Y plane. As column 16 is connected to shaft 54, rotation of cam 60 will likewise, rotate the column. For example, the path of travel generated by the X-Y
drive is shown in Figure 7 at 130~ Only one half the curve is shown and it should be understood that the missing portion is a mirror image of that shown. It should be appreciated that reference 130 represents the path of travel of shaft 54 and therefore, the axis of rotation of column 16. The curve ~ -132 in heavy solid line represents a locus of points within the depth of focus and includes both the mandibular joints and the dental arch. Points 1-8 represent various positions of the x-ray film during the x-ray procedure and are along a path generally parallel to the dental arch. The position of the x-ray source, while not shown is understood to be on the far side of the axis of rotation from points 1-8. From -Figure 7, it should be apparent that the rotational movement o~ the column, when associated with the movement in the X-Y
plane of platform 48 from which the column upstands, produces -~
a ne* movement of the x-ray source 18 and film cassette 20 along a path of travel which parallels the dental arch. As shown by heavy solid line 132 in Figure 7, the x-ray is taken - -starting at the left mantibular joint Li. It then moves inward to x-ray the last molar L4 on the left side and then along the dental arch to the last molar R4 on the right side of the mouth and then outward to x-ray the right mandibular joint Rl.
As previously stated, the size of the pattern traveled by the platform can be changed by moving the points of the pick-o~fs defined by nuts 80 and 98. This is accomplished by the simultaneous rotation of lead screws 78 and 96 to move ~`
, . . . . . . . ............. . . . ............... .
. . . . . . . .
, 1~4ZS63 `
the nuts toward or away from shaft 74. For this purpose, a second drive motor 106 is mounted on plate 52 ~Figures 3 and ~ -5). When actuated, this motor drives both lead screws through a system of bevel gears 108. Aceuation of the motor can be accomplished by any suitable means (not shown) such as a hand controller. It should be appreciated that such an arrangement allows an infinite adjustment of the pattern size within the full limits of the adjustment range.
As the pattern size is adjusted, it is important that a common reference point be maintained for all pattern sizes. : ~;
Preferably, this common point is located at the front of the dental arch, as defined, for example, by the chin and head rests 26, 28 respectfully, at the front of the dental chair which are used for properly positioning the patient. For example, Figure 7 - shows at 130 a path of travel as may be generated by the mech-anism for making a full mouth dental x-ray of the dental arch of an adult. Reference 130a line shows a smaller, symmetrical, pattern of the path generated for making an x-ray of a younger -person whose dental arch is included in the light solid line curve shown at 132A. The point indicated at A is common to both patterns and is located at the front or apex of the -dèntal arch.
Thus, when the size of the pattern is changed, it is .- :
necessary to provide an ad;ustment which maintains the position of point A. This i5 accomplished by an apex ad~uster which shifts the X-Y path of travel towards point A when a child i9 in the chair and away from point A when an adult i~l ln the chair.
The apex ad;uster generally indicated at 104 can be seen in plan view in Figures 3 and 5, and in elevation view in Figures 2 and 6. As described hereinabove, there is a way I02 mounted on member 100, which in turn is attached to the db/
.
, .
, ground of the apparatus. Also as previous stated, way 102 i~
oriented parallel to ways 46 and normal to way 38 (Figure 3).
Slidably mounted on way 102 is a block 110. The ends 112 of the block (Figure 6) are mitered and slidably fit into a pair of horizontal side supports 114. Supports 114 extend in canti-lever fashion from a mounting bracket 116 which depends from platform 48 (Figures 2 and 3). With the arrangement described thus far, it should be appreciated that block 110 is free to sllde with platform 48 in the Y direction of the chair, but that the block, being on way 10~, is fixed from sliding in the X direction. However, due to the sliding relationship between block 110 and side supports 114, the supports and platform 48 can slide with respect to the block in the X direction.
To accomplish the apex ad~ustment, which requires move-ment in the X direction or front-to-back, Figures S and 6 show that block llO contains a diagonal cam groove 118 which slid-ably retains a follower 120. The follower depends from nut 98 and is therefore tied, via leg 92 and shaft 74, to platform 48 -with the screw permitting an adjustment of the nut wlth respect to the platform. Cam groove 118 is oriented generally on the diagonal of block 110 to accomplish the apex ad~ustment as set out hereinbelow.
As previously stated, rotating screw 96 to move nut 98 with respect to platform 48 to the left or the right as viewed in the Figures, will respectively increase or decrease the size of the x component at the pattern. Movement of the nut will in turn drive follower 120 agalnst one side or the other of inclined slot 118. The pressure of follower 120 against the side of slot 118 cannot be relieved by a corresponding movement of platform 48 ln the Y direction as move~ent in the Y direction is prevented by reaction arm a4.. Consequently, such pressure is ~3 .
db/
1(D4;~563 relieved by follower 120 riding up or down the inclined slot as viewed in Figures 3 and 5. As follower 120 i9 tied to plat-form 48, movement of the Eollower in the X direction produces a like movement of platform 48, wherein the platform, bracket 116 and side supports 114 slide over block 1lO in the X direction.
By way of example, if nut 98 is moved to the left,-as viewed in the Figures, to increase the size of the pattern, follower 120 will be forced up the inclined slot 118 ~igures --3 and 5) moving platform 48 towards the back of the apparatus and away from the reference defined by chin and head rests 26, 28 respectfully. If the nut moves in the opposite direction to decrease the pattern size, follower 120 will be forced down the inclined slot moving platform 48 towards the reference point defined by the chin and headrests. Such movement towards and away from the chin and headrests maintains the key position of the apex of the pattern at point A (Figure 7~ as the pattern size is changed.
Thus, it should be appreciated that the present invention accomplishes its present objects in providing a dental x-ray apparatus for taking full mouth x-rays which is a self-contained ;
- unit requiring no installation or wall support. The apparatus has-the capability of making an lnfinite ad~ustment af the size of the-pattern followed by the x-ray soùrce and the film holder about the head of the patient. Such change in the pattern size is accomplished quickly and easily while maintaining a common reference point with respect to all of the pattern slzes. The ma~ority of the weight of the apparatus, made up by the trans-former and other electrical components and the X-Y drive mechan-ism, is located in the base of the apparatus, so the apparatus can be made free standing and there is no need to wall supports for mounting the apparatus.
: ' ~ 1~ :
db/
-, .
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1~142563 Since the present invention concerns primarily the general arrangement of the x-ray apparatus together with X-Y
drive and apex adjustment as described herein, no mention is made of other features well-known in the art which are essential to the operation of a panorama dental x-ray machine of the type described. For example, it is well-known that as column 16 is rotated about a patient, means must be provided to accomplish an independent rotation of x-ray film cassette 20 in order to achieve proper exposure of the x-ray film. The rotation must be in a particular time sequence with the movement of arm 16, but as such a mechanism forms no part of the present invention, -none has been described herein and the apparatus to accomplish this has been omitted from the drawing for purposes of simplification.
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:. :
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Claims (19)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. Dental X-ray apparatus of the type for taking a full mouth X-ray comprising:
a) a base adapted to rest on a floor surface;
b) a patient chair on said base and means for holding the head of the patient at a defined reference point;
c) a platform supported for movement relative to said base in a X-Y plane beneath the seat of said patient chair:
d) a generally L-shaped column having a horizontal leg extending beneath said seat with one end of said leg being mounted to said platform for rotation about a vertical axis passing generally through the seat of said patient chair, the upstanding portion of said column extending to a point above said patient chair;
e) a horizontal arm extending outward from said column over said patient chair;
f) an X-ray source in said column and an X-ray film holder on the outward end of said horizontal arm in line with said-X-ray source;
g) a power supply in said base connected to said X-ray source by flexible cable means extending through said column;
h) first drive means carried by said platform for rotating said column and therefore said X-ray source and film holder about said vertical axis, whereby said X-ray source and film holder orbit the head of a patient positioned at said reference point; and i) second X-Y drive means carried by said plat-form and cooperating with said base for moving said platform uninterruptedly along a closed curved path of travel in an X-Y
plane, which movement when associated with the rotation of said column produces a net orbital movement of said X-ray source and film holder along a path of travel which parallels the dental arch.
a) a base adapted to rest on a floor surface;
b) a patient chair on said base and means for holding the head of the patient at a defined reference point;
c) a platform supported for movement relative to said base in a X-Y plane beneath the seat of said patient chair:
d) a generally L-shaped column having a horizontal leg extending beneath said seat with one end of said leg being mounted to said platform for rotation about a vertical axis passing generally through the seat of said patient chair, the upstanding portion of said column extending to a point above said patient chair;
e) a horizontal arm extending outward from said column over said patient chair;
f) an X-ray source in said column and an X-ray film holder on the outward end of said horizontal arm in line with said-X-ray source;
g) a power supply in said base connected to said X-ray source by flexible cable means extending through said column;
h) first drive means carried by said platform for rotating said column and therefore said X-ray source and film holder about said vertical axis, whereby said X-ray source and film holder orbit the head of a patient positioned at said reference point; and i) second X-Y drive means carried by said plat-form and cooperating with said base for moving said platform uninterruptedly along a closed curved path of travel in an X-Y
plane, which movement when associated with the rotation of said column produces a net orbital movement of said X-ray source and film holder along a path of travel which parallels the dental arch.
2. X-ray apparatus as in Claim 1 comprising a carriage mounted for movement along a first axis of said base, said platform being mounted on said carriage for movement along a second axis of said base.
3. X-ray apparatus as in Claim 1 wherein said second X-Y drive means comprises:
a) a rotatable cam member journaled to said plat-form;
b) first force transmitting means engaging said cam and freely movable along a first axis of said base and fixed with respect to a second axis of said base for moving said platform along said second axis of said base responsive to the rotation of said cam; and c) second force transmitting means engaging said cam and freely movable along said second axis and fixed with respect to said first axis of said base for moving said plat-form along said first axis of said base responsive to the rotation of said cam.
a) a rotatable cam member journaled to said plat-form;
b) first force transmitting means engaging said cam and freely movable along a first axis of said base and fixed with respect to a second axis of said base for moving said platform along said second axis of said base responsive to the rotation of said cam; and c) second force transmitting means engaging said cam and freely movable along said second axis and fixed with respect to said first axis of said base for moving said plat-form along said first axis of said base responsive to the rotation of said cam.
4. X-ray apparatus as in Claim 3 wherein said cam is disc-shaped having a cam surface in each face thereof, each of said force transmitting means including a cam follower engaging one of said cam surfaces.
5. X-ray apparatus as in Claim 4 wherein said cam sur-faces are formed by an endless groove in each face of said cam, each groove defining a motion component along a axis of said base.
6. X-ray apparatus as in Claim 3 including a vertical shaft journaled to and extending through said platform, the portion of said shaft above said platform being connected to and forming the vertical axis of rotation of said column and the portion of said shaft below said platform mounting and forming the axis of rotation of said cam.
7. X-ray apparatus as in Claim 3 wherein said first and second force transmitting means are simultaneously adjustable for changing the size but not the shape of said closed curved path of travel through which said platform is moved.
8. Apparatus as set forth in Claim 7 including apex adjustment means for shifting the axis of rotation of said shaft towards or away from said defined reference point as the shape of said closed path of travel is respectively decreased and increased.
9. X-ray apparatus as in Claim 3 wherein said first force transmitting means comprises:
a) a shaft depending from said platform;
b) a first pick-off arm having one end journaled to said shaft;
c) a cam follower on said pick-off arm engaged with said cam;
d) a rigid reaction arm connected to said pick-off arm, said reaction arm being freely movable along an X axis of said base and fixed against movement along a Y axis of said base.
a) a shaft depending from said platform;
b) a first pick-off arm having one end journaled to said shaft;
c) a cam follower on said pick-off arm engaged with said cam;
d) a rigid reaction arm connected to said pick-off arm, said reaction arm being freely movable along an X axis of said base and fixed against movement along a Y axis of said base.
10. X-ray apparatus as in Claim 9 wherein said second force transmitting means comprises:
a) a L-shaped pick-off arm journaled intermediate its ends to said shaft;
b) a second cam follower on one leg of said L-shaped pick-off arm engaged with said cam; and c) a second reaction arm connected to the second leg of said L-shaped pick-off arm, said second reaction arm being freely movable along a Y axis of said base and fixed against movement along an X axis of said base.
a) a L-shaped pick-off arm journaled intermediate its ends to said shaft;
b) a second cam follower on one leg of said L-shaped pick-off arm engaged with said cam; and c) a second reaction arm connected to the second leg of said L-shaped pick-off arm, said second reaction arm being freely movable along a Y axis of said base and fixed against movement along an X axis of said base.
11. X-ray apparatus as in Claim 10 including:
a) a lead screw on said first pick-off arm and on the second leg of said L-shaped pick-off arm;
b) a nut driven by each screw along said arms to-wards and away from said shaft;
c) said reaction arms being connected to the nut on their respective pick-off arms; and d) means for simultaneously rotating said screws to drive said nuts in concert toward or away from said shaft to vary the nut-cam follower distance and change the effect of the throw of said cam.
a) a lead screw on said first pick-off arm and on the second leg of said L-shaped pick-off arm;
b) a nut driven by each screw along said arms to-wards and away from said shaft;
c) said reaction arms being connected to the nut on their respective pick-off arms; and d) means for simultaneously rotating said screws to drive said nuts in concert toward or away from said shaft to vary the nut-cam follower distance and change the effect of the throw of said cam.
12. X-ray apparatus as in Claim 11 including:
a) a way oriented parallel to the second leg of said L-shaped pick-off arm;
b) a block slidably mounted on said way;
c) a mounting bracket depending from said plat-form;
d) a pair of side supports extending from said bracket and slidably engaging said block, said side supports permitting movement of said platform over said block in a di-rection normal to said way and said way permitting movement of said block and platform in a direction parallel to said way; and e) means connecting said block and the nut on the second leg of said L-shaped pick-off arm for moving said plat-form over said block as said nut is moved to change the throw of said cam;
a) a way oriented parallel to the second leg of said L-shaped pick-off arm;
b) a block slidably mounted on said way;
c) a mounting bracket depending from said plat-form;
d) a pair of side supports extending from said bracket and slidably engaging said block, said side supports permitting movement of said platform over said block in a di-rection normal to said way and said way permitting movement of said block and platform in a direction parallel to said way; and e) means connecting said block and the nut on the second leg of said L-shaped pick-off arm for moving said plat-form over said block as said nut is moved to change the throw of said cam;
13. X-ray apparatus as in Claim 12 wherein said block has a generally diagonal cam groove therein and said means connecting said block and nut includes a follower connected to said nut and riding in said cam groove.
14. Dental X-ray apparatus of the type for taking a full mouth X-ray by orbiting an X-ray source and X-ray film holder about the head of a patient along an orbital path which follows the shape of the patient's dental arch, said apparatus comprising:
a) a fixed base supporting a patient chair;
b) a platform movable with respect to said base and chair through a closed path of travel in an X-Y plane be-neath said chair;
c) a column upstanding from said platform support-ing said X-ray source and X-ray film holder, said column being rotatable about a vertical axis of rotation while being trans-ported through said closed path of travel by said platform such that said X-ray source and X-ray film holder are orbited about the head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by said platform and cooperating with said base for moving said platform with re-spect to said base through said closed path of travel, said X-Y drive means including a rotatable cam carried by said plat-form and a pair of reaction arms extending between said cam and base, each of said reaction arms being freely movable with respect to said base along one axis thereof and fixed with respect to said base along another axis thereof, the throw of said cam during the rotation thereof forcing said reaction arms to move said cam and therefore said platform with respect to said base through said closed path of travel.
a) a fixed base supporting a patient chair;
b) a platform movable with respect to said base and chair through a closed path of travel in an X-Y plane be-neath said chair;
c) a column upstanding from said platform support-ing said X-ray source and X-ray film holder, said column being rotatable about a vertical axis of rotation while being trans-ported through said closed path of travel by said platform such that said X-ray source and X-ray film holder are orbited about the head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by said platform and cooperating with said base for moving said platform with re-spect to said base through said closed path of travel, said X-Y drive means including a rotatable cam carried by said plat-form and a pair of reaction arms extending between said cam and base, each of said reaction arms being freely movable with respect to said base along one axis thereof and fixed with respect to said base along another axis thereof, the throw of said cam during the rotation thereof forcing said reaction arms to move said cam and therefore said platform with respect to said base through said closed path of travel.
15. X-ray apparatus as set forth in Claim 14 wherein said cam is disc-shaped having an endless cam groove in both the top and bottom surfaces thereof defining respectively the X and Y components of motion of said platform, and each of said reaction arms being associated with a cam follower engaged in one of said cam grooves.
16. X-ray apparatus as in Claim 15 including a vertical shaft depending from said platform, said X-Y drive means including:
a) a pick-off arm having one end journaled to said shaft, one of said cam followers being fixed to said arm;
b) a lead screw and nut on said pick-off arm, said screw being rotated for driving said nut along said pick-off arm towards and away from said shaft; and c) one of said reaction arms being journaled at one end of said nut, the movement of said nut towards and away from said shaft acting to decrease and increase respectively the throw of said cam.
a) a pick-off arm having one end journaled to said shaft, one of said cam followers being fixed to said arm;
b) a lead screw and nut on said pick-off arm, said screw being rotated for driving said nut along said pick-off arm towards and away from said shaft; and c) one of said reaction arms being journaled at one end of said nut, the movement of said nut towards and away from said shaft acting to decrease and increase respectively the throw of said cam.
17. X-ray apparatus as in Claim 15 including a vertical shaft depending from said platform, said X-Y drive means including:
a) an L-shaped pick-off arm journaled intermediate its ends to said shaft, one of said cam followers being fixed on one leg of said L-shaped pick-off arm;
b) a lead screw and nut on said second leg of said L-shaped pick-off arm, the rotation of said lead screw driving said nut along said leg towards and away from said shaft;
c) a pin on said nut; and d) means including one of said reaction arms journaled to said pin, the movement of said nut towards and away from said shaft acting to decrease and increase respectively the throw of said cam.
a) an L-shaped pick-off arm journaled intermediate its ends to said shaft, one of said cam followers being fixed on one leg of said L-shaped pick-off arm;
b) a lead screw and nut on said second leg of said L-shaped pick-off arm, the rotation of said lead screw driving said nut along said leg towards and away from said shaft;
c) a pin on said nut; and d) means including one of said reaction arms journaled to said pin, the movement of said nut towards and away from said shaft acting to decrease and increase respectively the throw of said cam.
18. Dental X-ray apparatus of the type for taking a full mouth X-ray comprising:
a) a base adapted to rest on a floor surface;
b) a patient support means on said base including means for holding the head of a patient at a reference point;
c) a platform supported on said base for movement relative to said base through a closed path of travel in an X-Y
plane beneath said patient support means;
d) an X-ray source and film holder, said source and film holder being spaced and in line and rotatable about a vertical axis upstanding from said platform so as to orbit the head of a patient held at said reference point;
e) means for moving said platform through said closed path of travel while rotating said X-ray source and film holder about said vertical axis, the rotational movement of said X-ray source and film holder together with the movement of said vertical axis producing a net movement of said X-ray source and film holder along a path of travel which parallels the dental arch of a patient's head held at said reference point;
f) means for symmetrically changing the size of said closed path of travel; and g) means for translating said platform towards and away from said reference point as the size of said path of travel is respectively decrease and increased.
a) a base adapted to rest on a floor surface;
b) a patient support means on said base including means for holding the head of a patient at a reference point;
c) a platform supported on said base for movement relative to said base through a closed path of travel in an X-Y
plane beneath said patient support means;
d) an X-ray source and film holder, said source and film holder being spaced and in line and rotatable about a vertical axis upstanding from said platform so as to orbit the head of a patient held at said reference point;
e) means for moving said platform through said closed path of travel while rotating said X-ray source and film holder about said vertical axis, the rotational movement of said X-ray source and film holder together with the movement of said vertical axis producing a net movement of said X-ray source and film holder along a path of travel which parallels the dental arch of a patient's head held at said reference point;
f) means for symmetrically changing the size of said closed path of travel; and g) means for translating said platform towards and away from said reference point as the size of said path of travel is respectively decrease and increased.
19. Dental X-ray apparatus of the type for taking a full mouth X-ray by orbiting an X-ray source and X-ray film holder about the head of a patient along an orbital path which follows the shape of the patient's dental arch, said apparatus comprising:
a) a fixed base supporting a patient's chair;
b) a platform movable with respect to said base and chair through a closed path of travel in an X-Y plane beneath said chair;
c) a column upstanding from said platform supporting said X-ray source and X-ray film holder, said column being rotatable about a vertical axis of rotation while being transported through said closed path of travel by said platform such that said X-ray source and X-ray film holder are orbited about the head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by said platform and cooperating with said base for moving said platform with respect to said base through said closed path of travel.
a) a fixed base supporting a patient's chair;
b) a platform movable with respect to said base and chair through a closed path of travel in an X-Y plane beneath said chair;
c) a column upstanding from said platform supporting said X-ray source and X-ray film holder, said column being rotatable about a vertical axis of rotation while being transported through said closed path of travel by said platform such that said X-ray source and X-ray film holder are orbited about the head of a patient through an orbital path which parallels the shape of the dental arch; and d) X-Y drive means carried by said platform and cooperating with said base for moving said platform with respect to said base through said closed path of travel.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US504274A US3906227A (en) | 1974-09-09 | 1974-09-09 | Dental x-ray machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1042563A true CA1042563A (en) | 1978-11-14 |
Family
ID=24005575
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA231,329A Expired CA1042563A (en) | 1974-09-09 | 1975-07-14 | Dental x-ray machine |
Country Status (4)
Country | Link |
---|---|
US (1) | US3906227A (en) |
JP (1) | JPS5152795A (en) |
CA (1) | CA1042563A (en) |
DE (1) | DE2537425A1 (en) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS52103988A (en) * | 1976-02-25 | 1977-08-31 | Morita Mfg | Method and device for taking curved sectional plane of xxray |
FI67269C (en) * | 1976-11-08 | 1985-02-11 | Instrumentarium Oy | APPARAT FOER AOSTADKOMMANDE AV PANORAMAROENTGENBILDPROJEKTIONER AV ETT TANDBAOGSFORMAT OBJEKT |
JPS5464488A (en) * | 1977-10-31 | 1979-05-24 | Morita Mfg | Dental total maxilla xxray photographing method and xxray camera used therefor |
US4125774A (en) * | 1977-12-01 | 1978-11-14 | Pennwalt Corporation | Panoramic dental x-ray machine |
US4534048A (en) * | 1983-01-03 | 1985-08-06 | Pennwalt Corporation | Methods of increasing anterior layer thickness of continuous dental images obtained through rotational panoramic radiography |
JPS60103942A (en) * | 1983-11-12 | 1985-06-08 | 株式会社モリタ製作所 | Dental total jaw x-ray photographing apparatus |
US6863440B2 (en) * | 2001-02-22 | 2005-03-08 | B.F. Wehmer Co., Inc. | Head positioning apparatus and method for cephalometric imaging |
FR2951073A1 (en) * | 2009-10-14 | 2011-04-15 | Bernard Gotti | Device i.e. medical examination armchair, for realizing e.g. mammography medical gestures of patient, has leg supporting seat and mounted on spring that adjusts position of patient, where seat has backrest equipped with bucket seat |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2798958A (en) * | 1956-01-19 | 1957-07-09 | Donald C Hudson | Apparatus for producing radiographs of selected structures within a subject |
US3536913A (en) * | 1967-11-17 | 1970-10-27 | Automobiles Simea Sa Soc D | Panoramic x-ray machine for taking radiographs of the oral cavity |
US3673408A (en) * | 1970-04-27 | 1972-06-27 | Merton Moss | Combination radiographic apparatus |
-
1974
- 1974-09-09 US US504274A patent/US3906227A/en not_active Expired - Lifetime
-
1975
- 1975-07-14 CA CA231,329A patent/CA1042563A/en not_active Expired
- 1975-08-22 DE DE19752537425 patent/DE2537425A1/en active Pending
- 1975-09-09 JP JP50108612A patent/JPS5152795A/en active Pending
Also Published As
Publication number | Publication date |
---|---|
US3906227A (en) | 1975-09-16 |
JPS5152795A (en) | 1976-05-10 |
DE2537425A1 (en) | 1976-03-18 |
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