US3600576A - Goniometer device - Google Patents

Goniometer device Download PDF

Info

Publication number
US3600576A
US3600576A US829338A US3600576DA US3600576A US 3600576 A US3600576 A US 3600576A US 829338 A US829338 A US 829338A US 3600576D A US3600576D A US 3600576DA US 3600576 A US3600576 A US 3600576A
Authority
US
United States
Prior art keywords
crystal
base
cylindrical
threaded
adjustment
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
US829338A
Inventor
Forrest L Carter
Walter C Sadler
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.)
FORREST L CARTER
WALTER C SADLER
Original Assignee
FORREST L CARTER
WALTER C SADLER
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 FORREST L CARTER, WALTER C SADLER filed Critical FORREST L CARTER
Application granted granted Critical
Publication of US3600576A publication Critical patent/US3600576A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N23/00Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups G01N3/00 – G01N17/00, G01N21/00 or G01N22/00
    • G01N23/20Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups G01N3/00 – G01N17/00, G01N21/00 or G01N22/00 by using diffraction of the radiation by the materials, e.g. for investigating crystal structure; by using scattering of the radiation by the materials, e.g. for investigating non-crystalline materials; by using reflection of the radiation by the materials
    • G01N23/20008Constructional details of analysers, e.g. characterised by X-ray source, detector or optical system; Accessories therefor; Preparing specimens therefor
    • G01N23/20025Sample holders or supports therefor
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N23/00Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups G01N3/00 – G01N17/00, G01N21/00 or G01N22/00
    • G01N23/20Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups G01N3/00 – G01N17/00, G01N21/00 or G01N22/00 by using diffraction of the radiation by the materials, e.g. for investigating crystal structure; by using scattering of the radiation by the materials, e.g. for investigating non-crystalline materials; by using reflection of the radiation by the materials
    • G01N23/207Diffractometry using detectors, e.g. using a probe in a central position and one or more displaceable detectors in circumferential positions
    • G01N23/2073Diffractometry using detectors, e.g. using a probe in a central position and one or more displaceable detectors in circumferential positions using neutron detectors

Definitions

  • the X-Y translation mechanisms are housed within a low flat housing which is removed from the crystal the maximum distance possible such that the crystal may be adjusted without exposure of ones hands during the adjustment.
  • the crystal mounting rod extends considerable distance from the base such that high or low temperature may be used without the base affecting the temperature.
  • the device of this invention is made with alow base that includes both an X and Y mechanical translation mechanism.
  • the crystal is mounted onto an elongated support rod, containing a key, which may be adjusted for height.
  • the X-Y movable elements are mounted in the base and the movable elements are provided with locking screws that prevent the X- Y movable elements from movement once they have been positioned and the locking screws secured.
  • the crystal may be removed with the keyed support rod and then replaced in the same angular position with only minor translation adjustments needed but not the time consuming arc adjustments.
  • Another object is to provide a goniometer head in which the mechanical translation means is of sufficient distance from the crystal to permit hand adjustment of the crystal without harm to the operator by radiation effects.
  • Stillanother object is to provide a goniometer head in which the crystal is supported a sufficient distance from the mechanical translation means that the temperature may be more easily controlled without affecting the mechanical translation means.
  • Yet another object is to provide a goniometer which may be locked after setting and which will not show any angular drift with time.
  • While still another object is to provide a goniometer head which permits removal of the crystal and crystal holder without interfering with the'setting, thereby permitting use of the base for other uses with subsequent return of the crystal holder and crystalpositioned in the correct orientation.
  • Another object is to provide a particularly low profile as well as stable translation mechanism.
  • FIG. 1 is a top view partially in section to illustrate the relative parts.
  • FIGS. 2 and 3 are different side views illustrating the drive mechanisms and the relative parts.
  • the goniometer head includes a base 10 within which two right angle mechanical translations operate to provide X-Y adjustment and an elevation adjustment is provided to adjust the elevation of a crystal held in place on a supporting rod.
  • the base 10 is cylindrical with a conical outer surfaces 11 or any other desired shape.
  • the top surface is cutaway in the shape of an inverted T" to provide oppositely disposed horizontally extending lips 12 across the entire top portion.
  • a semicircular smooth nonthreaded groove 14 is formed parallel with the lip 12.
  • the surface of the base near the outer edges is cutaway at 15 perpendic filar to the groove 14 to form a flat surface perpendicular with the ends of the groove 14.
  • a movable elongated flat surface member 21 of T- shape cross section is formed to fit into the cutout section of the base with a body portion between lips 12 and a winged portion 22 in the cutout below the lips such that the member 21 is movable along the lips in a direction along a line parallel with the lips 12.
  • the ends of the winged portions are cutaway over about one-quarter the length of the member 21 to permit movement between hold down screws which pass through the base to secure the goniometer head in place.
  • a portion of the bottom surface of the member 21 is cutaway in the shape of a rectangle for a depth of about one-half the thickness of the member, thus the member is left with outer end edges 23 that extend along the cutout portion and ride along the surface of the base.
  • the member 21 is also provided with a centrally located aperture 25 which may be square, circular or rectangular. The aperture passes through the entire member and is of the same width as the rectangular cutout that is cut from the bottom surface.
  • the movable member 21 is provided with a threaded semicircular cutout 26 in the outer edges 23 at the midpoint which corresponds with the groove 14 in the base.
  • a lead screw 27 is held in the groove 14 by end plates 28 that are secured to the base such that the threads on the lead screw matches the threaded cutout 26 in the edges 23 of member 21.
  • the relationship of the threaded cutout 26 in the edges 23 of member 21 and the lead screw is similar to that of a nut and bolt.
  • a second movable member 31 is formed with a rectangular base 32 and a cylindrical portion 33 that extends from the rectangular base.
  • the rectangular base is narrower in width than the rectangular cutout in the movable member 21 but of the same length so that the base of the movable member 31 will fit into the cutout in member 21 with the cylindrical portion 33 extending outwardly through the aperture 25.
  • the member 31 moves in a direction perpendicular to the move ment of member 21, however, the member 31 is moved along with member 21. Therefore, the narrower rectangular base permits movement relative to the member 21.
  • the member 31 is provided with a cutout in the bottom surface of the base in the area of the lead screw 27 'so that the member 31 may be moved relative to the member 21 without interference by the lead screw.
  • the cylindrical member 33 is cutaway at 35 in the area along the aperture 25 in member 21 which permits movement of movable member 31 relative to member 21.
  • the base 32 is also provided with ears 36 that match with cutouts 37 in the member 21 so that ears 36 act as guides during movement of movable member 31.
  • Cylindrical member 33 is provided with diametrically opposite keys 38 that passes diametrically therethrough and ride in keyways.
  • Movable member 31 is provided with a partial circular cutout 41 which is threaded.
  • lead screw 42 secured in fixed end bearing 39 and removable plate bearing 40 in movable member 21 in alignment with threaded cutout 41 in the movable member 31 for adjusting movable member 31 relative to movable member 21 for movement perpendicular to the direction of movement of member 21.
  • the ends of the lead screw are square for reception of extension 49 which fit into the square ends for the purpose of adjusting the lead screw.
  • the movable member 21 is also provided with threaded apertures on opposite sides of cylindrical member 33 in which screws 43 are threaded. These screws 43 are threaded against the upper surface of movable member 31 firmly against the base thereby locking both movable members 21 and 31 against movement, once the proper setting has been accomplished.
  • the upper end of cylindrical member 33 is threaded on the outside thereof, the purpose of which will be set forth later.
  • the members 21 and 31 cooperate to provide X-Y translation for adjustment in the horizontal plane.
  • an elevation mechanism is used for vertical or height adjustment.
  • the elevation mechanism includes an elevation cylindrical member 45 which is threaded along the upper half whereas the lower half includes two diametrically opposite keyway slits 46 along a portion of the length thereof.
  • the cylindrical member 45 fits with a sliding fit into the cylindrical part 33 of the movable member 31 such that the slits 46 ride along the keys 38.
  • a cylindrical nut 51 having a threaded portion 52 on the inner surface thereof and a threaded coaxial aperture 53 of a smaller diameter is provided for adjusting the elevation cylinder.
  • the nut is provided with suitable apertures around the outer surface thereof for rotation by a spanner wrench.
  • the large diameter portion of the nut fits over and is threaded onto the threaded end of cylindrical member 33 whereas the smaller diameter threaded aperture screw threads over the threaded end of the cylindrical elevation member 45.
  • rotation of the nut moves the nut along the upper end of member 33 and simultaneously moves the threaded cylindri cal elevation member 45 relative to the cylindrical member 33.
  • the slits ride along the keys which prevents rotation of the elevation member 45 relative to cylinder 33.
  • a crystal is held in place by a supporting rod 58 that passes through a stop 54 and fits into the cylindrical elevation member 45.
  • the stop 54 is provided with a set screw 55 that is screw-threaded into stop 54 to hold the supporting rod in place.
  • the stop is provided with oppositely disposed teeth 56 on the lower surface thereof which fits into matting slots 57 in the upper end of the elevation cylinder which prevents the supporting rod from rotation relative thereto.
  • Setscrew 59 is provided to secure the end of rod 58 against movement relative to cylindrical elevation member 45.
  • the stop is provided for coarse adjustment of the crystal by use of the set screw setting against rod 58 whereas fine adjustment is brought about by use of the nut 51.
  • the threads on the cylindrical member 33 of the movable member 31 and the elevation cylindrical member 45 may differ according to the desires of the manufacture and the degree of fine adjustment.
  • the base is cut away as necessary for assembly and operation of the lead screws and the movable members.
  • the base is provided with four apertures 61 therein through which suitable screws pass.
  • the apertures are positioned for best support, therefore, the apertures are located near the wings of the movable member 21. Therefore, in order to permit proper movement member 21, each of the ends of the end wings have been cutaway as shown. However, if the supporting means were located differently it would not be necessary to cut away the ends of the wings on the movable member 21.
  • the separate parts are made and prepared for assembly.
  • the movable member 31 and adjusting screw 42 are assembled with movable member 21 such that the cylindrical part 33 extends through aperture 25 in member 21.
  • member 21 is slid into place in base 10.
  • the lead screw 27 is then threaded into place along the threaded cutout 26.
  • the lead screw holding plates are secured to the base to secure the lead screw in place such that the movable member 21 can now be moved by rotation of the lead screw.
  • the lock screws may be screw threaded into place into the movable member 21.
  • the elevation cylinder may be placed into the cylindrical member 33 of the movable member 31 and then nut 51 is threaded onto the elevation cylinder and over the cylindrical member 33.
  • the key may be placed into the cylindrical member either before or after placing the elevation cylinder therein. However, if it is desired to rotate the elevation cylinder with respect to the nut during assembly, it is best to insert the key and locking screw after assembly of the elevation cylinder and nut.
  • the goniometer head is now ready for receipt of the crystal supporting rod and for securing the base in place for adjustment of the device by properly placing the crystal in place for test.
  • the supporting rod and crystal may be removed without interfering with the setting of the goniometer head assembly.
  • the construction of the goniometer head may be made with any suitable material which is mechanically stable and not subject to failing.
  • the removable support rod may be made of a variety of materials or composition including brass, ceramics, glass, quartz, A1 0 rods, thin wall stainless tubes, etc.
  • the primary object of the support rod is to maintain the crystal accurately centered in the test beam and to minimize the flow of heat to or from the crystal.
  • small conical shields may be supported on the support rod to prevent gas flow from being directed onto the goniometer head.
  • the two translation mechanisms as well as the elevation or height adjusting mechanism is of a less overall height than the crystal support rod. Therefore, it is seen that the construction is such that the crystal is removed a substantial distance from the adjusting mechanisms. Such construction provides a safe device in which the crystal will be less affected by the goniometer head with respect to the temperature thereof.
  • a goniometer head for positioning a specimen for nondestructive testing at high or low temperatures without harmful effects of an operator during adjusting of the specimen for test which comprises:
  • said support means including:
  • first translation means for moving said specimen in a horizontal plane
  • second translation means for moving said specimen in a direction perpendicular to the direction of movement of said first means and in the same horizontal plane
  • said first and second means mounted within said base and movable in the same plane relative to each other
  • said second means including a cylindrical member extending upwardly through said first means: said cylindrical member including screw threads along a portion thereof from the outer end thereof,
  • said second cylindrical element including screw threads on the outer surface thereof along a portion thereof
  • said coupling nut adapted to be screw threaded over said second cylindrical element and said cylindrical member for translation of said second cylindrical eletranslation means against movement relative to said base.
  • a goniometer head as claimed in claim 2 in which:
  • said second translation means is carried by and movable with said first translation means.
  • said cylindrical member is provided with a key normal to the axis thereof, and
  • said second cylindrical element is provided with a key way to prevent rotation thereof relative to said cylindrical member.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Biochemistry (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • General Physics & Mathematics (AREA)
  • Immunology (AREA)
  • Pathology (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Analysing Materials By The Use Of Radiation (AREA)

Abstract

This disclosure is directed to an arcless goniometer head which supports a single crystal specimen for examination by the use of X-rays of neutrons. The device is made for X-Y adjustment of the crystal as well as for height adjustment and the crystal is so mounted that the mount may be removed with the crystal thereon for use of the device for other crystal studies through use of other mounts. The X-Y translation mechanisms are housed within a low flat housing which is removed from the crystal the maximum distance possible such that the crystal may be adjusted without exposure of ones hands during the adjustment. Thus, the crystal mounting rod extends considerable distance from the base such that high or low temperature may be used without the base affecting the temperature.

Description

United States Patent Beltsville, Md. 20705 21 AppLNo. 829,338 22 Filed June 2,1969
[45] Patented Aug. 17, 1971 541 GONIOMETER DEVICE 4 Claims, 3 Drawing Figs.
[56] References Cited UNITED STATES PATENTS 7/ 1962 Kolicke 269/60 3,124,345 3/1964 Ely Primary Examiner-James W. Lawrence Assistant Examiner-D. C. Nelms AttorneysR. l. Tompkins, Arthur L. Branning, R. J. Erickson and M. L. Crane ABSTRACT: This disclosure is directed to an arcless I goniometer head which supports a single crystal specimen for examination by the use of X-rays of neutrons. The device is made for X-Y adjustment of the crystal as well as for height adjustment and the crystal is so mounted that the mount may be removed with the crystal thereon for use of the device for other crystal studies through use of other mounts. The X-Y translation mechanisms are housed within a low flat housing which is removed from the crystal the maximum distance possible such that the crystal may be adjusted without exposure of ones hands during the adjustment. Thus, the crystal mounting rod extends considerable distance from the base such that high or low temperature may be used without the base affecting the temperature.
INVENTORS CARTER ATTORNEY PATENTEDAUBI 1 IQYI SHEET 1 OF 2 FORREST L.
WALTER C. SADLER BY 7%;M
INVENTORS FORREST L. CARTER WALTER C. SAOLER W z NT GONIOMETER DEVICE STATEMENT OF GOVERNMENT INTEREST The invention described herein may be manufactured and BACKGROUND OF THEINVENTION are unstable and move with time such that the crystal orientation is not the same. This requires periodic adjustment which becomes time consuming. The goniometer heads used are unavailable for other work when not collecting data, that is, unless one is willing to remove the crystal which requires remounting and reorientation of the crystal on the goniometer head for further study.
SUMMARY OF THE INVENTION The device of this invention is made with alow base that includes both an X and Y mechanical translation mechanism. The crystal is mounted onto an elongated support rod, containing a key, which may be adjusted for height. The X-Y movable elements are mounted in the base and the movable elements are provided with locking screws that prevent the X- Y movable elements from movement once they have been positioned and the locking screws secured. Thus, the crystal may be removed with the keyed support rod and then replaced in the same angular position with only minor translation adjustments needed but not the time consuming arc adjustments.
OBJECTS OF THE INVENTION It is therefore an object of the present invention to provide a goniometer head which supports specimens for examination by suitable radiation within a high or low temperature environment.
Another object is to provide a goniometer head in which the mechanical translation means is of sufficient distance from the crystal to permit hand adjustment of the crystal without harm to the operator by radiation effects.
Stillanother object is to provide a goniometer head in which the crystal is supported a sufficient distance from the mechanical translation means that the temperature may be more easily controlled without affecting the mechanical translation means.
Yet another object is to provide a goniometer which may be locked after setting and which will not show any angular drift with time.
While still another object is to provide a goniometer head which permits removal of the crystal and crystal holder without interfering with the'setting, thereby permitting use of the base for other uses with subsequent return of the crystal holder and crystalpositioned in the correct orientation.
Another object is to provide a particularly low profile as well as stable translation mechanism.
Other objects and advantages of the invention will hereinafter become more fully apparent from the following description of the drawings.
I BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a top view partially in section to illustrate the relative parts.
FIGS. 2 and 3 are different side views illustrating the drive mechanisms and the relative parts.
DESCRIPTION OF THE DRAWINGS Now referring to the drawings, there is illustrated a goiiiometer head made in accordance with the teaching of this invention wherein like reference characters refer to like parts throughout the specification. The goniometer head includes a base 10 within which two right angle mechanical translations operate to provide X-Y adjustment and an elevation adjustment is provided to adjust the elevation of a crystal held in place on a supporting rod. The base 10 is cylindrical with a conical outer surfaces 11 or any other desired shape. The top surface is cutaway in the shape of an inverted T" to provide oppositely disposed horizontally extending lips 12 across the entire top portion. In the surface 13 of the base along the middle thereof a semicircular smooth nonthreaded groove 14 is formed parallel with the lip 12. The surface of the base near the outer edges is cutaway at 15 perpendic filar to the groove 14 to form a flat surface perpendicular with the ends of the groove 14. A movable elongated flat surface member 21 of T- shape cross section is formed to fit into the cutout section of the base with a body portion between lips 12 and a winged portion 22 in the cutout below the lips such that the member 21 is movable along the lips in a direction along a line parallel with the lips 12. The ends of the winged portions are cutaway over about one-quarter the length of the member 21 to permit movement between hold down screws which pass through the base to secure the goniometer head in place. A portion of the bottom surface of the member 21 is cutaway in the shape of a rectangle for a depth of about one-half the thickness of the member, thus the member is left with outer end edges 23 that extend along the cutout portion and ride along the surface of the base. The member 21 is also provided with a centrally located aperture 25 which may be square, circular or rectangular. The aperture passes through the entire member and is of the same width as the rectangular cutout that is cut from the bottom surface. The movable member 21 is provided with a threaded semicircular cutout 26 in the outer edges 23 at the midpoint which corresponds with the groove 14 in the base. A lead screw 27 is held in the groove 14 by end plates 28 that are secured to the base such that the threads on the lead screw matches the threaded cutout 26 in the edges 23 of member 21. The relationship of the threaded cutout 26 in the edges 23 of member 21 and the lead screw is similar to that of a nut and bolt. With the bolt held against end wise movement but free to rotate, the nut will be threaded along the bolt as the bolt is rotated, the direction of movement along the bolt is dependent upon the rotational movement of the bolt, therefore, in the same manner as lead screw 27 is rotated, the member 21 will move along the lead screw due to the matched threads 26 on the edges 23, and the threads on the lead screw. Therefore, the lead screw moves the member 21 relative to the base 10.
A second movable member 31 is formed with a rectangular base 32 and a cylindrical portion 33 that extends from the rectangular base. The rectangular base is narrower in width than the rectangular cutout in the movable member 21 but of the same length so that the base of the movable member 31 will fit into the cutout in member 21 with the cylindrical portion 33 extending outwardly through the aperture 25. The member 31 moves in a direction perpendicular to the move ment of member 21, however, the member 31 is moved along with member 21. Therefore, the narrower rectangular base permits movement relative to the member 21. The member 31 is provided with a cutout in the bottom surface of the base in the area of the lead screw 27 'so that the member 31 may be moved relative to the member 21 without interference by the lead screw. The cylindrical member 33 is cutaway at 35 in the area along the aperture 25 in member 21 which permits movement of movable member 31 relative to member 21. The base 32 is also provided with ears 36 that match with cutouts 37 in the member 21 so that ears 36 act as guides during movement of movable member 31. Cylindrical member 33 is provided with diametrically opposite keys 38 that passes diametrically therethrough and ride in keyways. Movable member 31 is provided with a partial circular cutout 41 which is threaded. A
lead screw 42 secured in fixed end bearing 39 and removable plate bearing 40 in movable member 21 in alignment with threaded cutout 41 in the movable member 31 for adjusting movable member 31 relative to movable member 21 for movement perpendicular to the direction of movement of member 21. The ends of the lead screw are square for reception of extension 49 which fit into the square ends for the purpose of adjusting the lead screw. The movable member 21 is also provided with threaded apertures on opposite sides of cylindrical member 33 in which screws 43 are threaded. These screws 43 are threaded against the upper surface of movable member 31 firmly against the base thereby locking both movable members 21 and 31 against movement, once the proper setting has been accomplished. The upper end of cylindrical member 33 is threaded on the outside thereof, the purpose of which will be set forth later.
The members 21 and 31 cooperate to provide X-Y translation for adjustment in the horizontal plane. For vertical or height adjustment, an elevation mechanism is used. The elevation mechanism includes an elevation cylindrical member 45 which is threaded along the upper half whereas the lower half includes two diametrically opposite keyway slits 46 along a portion of the length thereof. The cylindrical member 45 fits with a sliding fit into the cylindrical part 33 of the movable member 31 such that the slits 46 ride along the keys 38. A cylindrical nut 51 having a threaded portion 52 on the inner surface thereof and a threaded coaxial aperture 53 of a smaller diameter is provided for adjusting the elevation cylinder. The nut is provided with suitable apertures around the outer surface thereof for rotation by a spanner wrench. The large diameter portion of the nut fits over and is threaded onto the threaded end of cylindrical member 33 whereas the smaller diameter threaded aperture screw threads over the threaded end of the cylindrical elevation member 45. Thus, rotation of the nut moves the nut along the upper end of member 33 and simultaneously moves the threaded cylindri cal elevation member 45 relative to the cylindrical member 33. The slits ride along the keys which prevents rotation of the elevation member 45 relative to cylinder 33.
A crystal is held in place by a supporting rod 58 that passes through a stop 54 and fits into the cylindrical elevation member 45. The stop 54 is provided with a set screw 55 that is screw-threaded into stop 54 to hold the supporting rod in place. The stop is provided with oppositely disposed teeth 56 on the lower surface thereof which fits into matting slots 57 in the upper end of the elevation cylinder which prevents the supporting rod from rotation relative thereto. Setscrew 59 is provided to secure the end of rod 58 against movement relative to cylindrical elevation member 45. The stop is provided for coarse adjustment of the crystal by use of the set screw setting against rod 58 whereas fine adjustment is brought about by use of the nut 51. The threads on the cylindrical member 33 of the movable member 31 and the elevation cylindrical member 45 may differ according to the desires of the manufacture and the degree of fine adjustment.
The base is cut away as necessary for assembly and operation of the lead screws and the movable members. For securing the base to a desired instrument or structure, the base is provided with four apertures 61 therein through which suitable screws pass. The apertures are positioned for best support, therefore, the apertures are located near the wings of the movable member 21. Therefore, in order to permit proper movement member 21, each of the ends of the end wings have been cutaway as shown. However, if the supporting means were located differently it would not be necessary to cut away the ends of the wings on the movable member 21.
In assembly of the device, the separate parts are made and prepared for assembly. The movable member 31 and adjusting screw 42 are assembled with movable member 21 such that the cylindrical part 33 extends through aperture 25 in member 21. With movable member 31 assembled with movable member 21, member 21 is slid into place in base 10. The lead screw 27 is then threaded into place along the threaded cutout 26. Once the lead screw is in place the lead screw holding plates are secured to the base to secure the lead screw in place such that the movable member 21 can now be moved by rotation of the lead screw. The lock screws may be screw threaded into place into the movable member 21.
The elevation cylinder may be placed into the cylindrical member 33 of the movable member 31 and then nut 51 is threaded onto the elevation cylinder and over the cylindrical member 33. The key may be placed into the cylindrical member either before or after placing the elevation cylinder therein. However, if it is desired to rotate the elevation cylinder with respect to the nut during assembly, it is best to insert the key and locking screw after assembly of the elevation cylinder and nut. The goniometer head is now ready for receipt of the crystal supporting rod and for securing the base in place for adjustment of the device by properly placing the crystal in place for test. The supporting rod and crystal may be removed without interfering with the setting of the goniometer head assembly.
The construction of the goniometer head may be made with any suitable material which is mechanically stable and not subject to failing. The removable support rod may be made of a variety of materials or composition including brass, ceramics, glass, quartz, A1 0 rods, thin wall stainless tubes, etc. The primary object of the support rod is to maintain the crystal accurately centered in the test beam and to minimize the flow of heat to or from the crystal. In cases where gas flow heating or cooling is employed, small conical shields may be supported on the support rod to prevent gas flow from being directed onto the goniometer head.
In constructing the goniometer head of the present invention, it can be seen that the two translation mechanisms as well as the elevation or height adjusting mechanism is of a less overall height than the crystal support rod. Therefore, it is seen that the construction is such that the crystal is removed a substantial distance from the adjusting mechanisms. Such construction provides a safe device in which the crystal will be less affected by the goniometer head with respect to the temperature thereof.
Obviously many modifications and variations of the present invention are possible in the light of the above teachings. It is therefore to be understood that within the scope of the appended claims the invention may be practiced otherwise than as specifically described.
What is claimed and desired to be secured by Letters Patent of the United States is:
1. A goniometer head for positioning a specimen for nondestructive testing at high or low temperatures without harmful effects of an operator during adjusting of the specimen for test, which comprises:
a base,
a specimen support means secured relative to said base for movement relative thereto, said support means including:
a first translation means for moving said specimen in a horizontal plane, a second translation means for moving said specimen in a direction perpendicular to the direction of movement of said first means and in the same horizontal plane, said first and second means mounted within said base and movable in the same plane relative to each other, said second means including a cylindrical member extending upwardly through said first means: said cylindrical member including screw threads along a portion thereof from the outer end thereof,
a second cylindrical element secured against rotation within said cylindrical member,
said second cylindrical element including screw threads on the outer surface thereof along a portion thereof,
a coupling nut,
said coupling nut adapted to be screw threaded over said second cylindrical element and said cylindrical member for translation of said second cylindrical eletranslation means against movement relative to said base.
3. A goniometer head as claimed in claim 2; in which:
said second translation means is carried by and movable with said first translation means.
4. A goniometer head as claimed in claim 3, in which:
said cylindrical member is provided with a key normal to the axis thereof, and
said second cylindrical element is provided with a key way to prevent rotation thereof relative to said cylindrical member.

Claims (3)

  1. 2. A goniometer head as claimed in claim 1; which includes: a translation locking means, said translation locking means locking said first and second translation means against movement relative to said base.
  2. 3. A goniometer head as claimed in claim 2; in which: said second translation means is carried by and movable with said first translation means.
  3. 4. A goniometer head as claimed in claim 3, in which: said cylindrical member is provided with a key normal to the axis thereof, and said second cylindrical element is provided with a key way to prevent rotation thereof relative to said cylindrical member.
US829338A 1969-06-02 1969-06-02 Goniometer device Expired - Lifetime US3600576A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US82933869A 1969-06-02 1969-06-02

Publications (1)

Publication Number Publication Date
US3600576A true US3600576A (en) 1971-08-17

Family

ID=25254244

Family Applications (1)

Application Number Title Priority Date Filing Date
US829338A Expired - Lifetime US3600576A (en) 1969-06-02 1969-06-02 Goniometer device

Country Status (1)

Country Link
US (1) US3600576A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3690642A (en) * 1971-01-20 1972-09-12 Saab Scania Ab Means for confining a translatable member to straight line motion
FR2530025A1 (en) * 1982-07-09 1984-01-13 Ceramique Ste Fse High-temperature automatic X-ray diffractometer
US4641329A (en) * 1985-04-23 1987-02-03 The United States Of America As Represented By The United States Department Of Energy Fixture for supporting and aligning a sample to be analyzed in an X-ray diffraction apparatus
US4759130A (en) * 1985-11-12 1988-07-26 U.S. Philips Corporation Goniometer head arrangement
US5181233A (en) * 1991-11-08 1993-01-19 Florida State University Specimen holder
US20020159560A1 (en) * 2001-04-28 2002-10-31 Nienaber Terrence J. Device for micro-manipulation of small samples

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3046006A (en) * 1960-04-12 1962-07-24 Kulicke & Soffa Mfg Co Micropositioner
US3124345A (en) * 1964-03-10 Adjustable waveguide support test stand

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3124345A (en) * 1964-03-10 Adjustable waveguide support test stand
US3046006A (en) * 1960-04-12 1962-07-24 Kulicke & Soffa Mfg Co Micropositioner

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3690642A (en) * 1971-01-20 1972-09-12 Saab Scania Ab Means for confining a translatable member to straight line motion
FR2530025A1 (en) * 1982-07-09 1984-01-13 Ceramique Ste Fse High-temperature automatic X-ray diffractometer
US4641329A (en) * 1985-04-23 1987-02-03 The United States Of America As Represented By The United States Department Of Energy Fixture for supporting and aligning a sample to be analyzed in an X-ray diffraction apparatus
US4759130A (en) * 1985-11-12 1988-07-26 U.S. Philips Corporation Goniometer head arrangement
US5181233A (en) * 1991-11-08 1993-01-19 Florida State University Specimen holder
US20020159560A1 (en) * 2001-04-28 2002-10-31 Nienaber Terrence J. Device for micro-manipulation of small samples
US6690763B2 (en) * 2001-04-28 2004-02-10 Oceaneering International, Inc. Device for micro-manipulation of small samples

Similar Documents

Publication Publication Date Title
Batchelder et al. X‐ray lattice constants of crystals by a rotating‐camera method: Al, Ar, Au, CaF2, Cu, Ge, Ne, Si
US20170160212A1 (en) Method of adjusting the primary side of an x-ray diffractometer
Franks Some developments and applications of microfocus X-ray diffraction techniques
US5337178A (en) Titlable optical microscope stage
Hirsch et al. An X-ray micro-beam technique: I-collimation
US5509043A (en) Asymmetrical 4-crystal monochromator
US3600576A (en) Goniometer device
US2452045A (en) X-ray apparatus and method for crystal analysis
WO2013145926A1 (en) Ion milling apparatus
Deslattes Two‐Crystal, Vacuum Monochromator
US3564240A (en) Goniometer head for x-ray diffraction apparatus with improved z-motion mechanism
Renaud et al. Apparatus for 3D surface X-ray scattering during in situ molecular beam deposition
Parrish et al. Geometry, alignment and angular calibration of X-ray diffractometers
US4513537A (en) Device for preparing thin specimens
WO1993008462A1 (en) X-ray diffractometer
US3892475A (en) Laser beam adjustment apparatus
CN110181184B (en) Solid of revolution presss from both sides tight positioning jig and cutting machine
US2709752A (en) Method of aligning an X-ray diffraction goniometer and apparatus therefor
US2440067A (en) Manipulator
US4247771A (en) Parafocusing diffractometer
Schreiner Towards improved alignment of powder diffractometers
US3555275A (en) Specimen positioning apparatus for use with a back reflection x-ray camera
Frontera et al. Hard X-ray imaging via crystal diffraction: first results of reflectivity measurements
Denne A new concept in goniometer head design
US3626185A (en) X-ray powder camera having a semicylindrical film holder and means to simultaneously rotate a specimen about two mutually perpendicular axes