Apparatus for finishing a cone-like surface

Description

[0001] The present invention generally relates to an apparatus for finishing a cone-like surface and, in particular, relates to one such apparatus having rigid members defining planes that, intersect in a line collinear with the axis of the cone-like surface.

[0002] It is known that conventional surfaces requiring near normal incident angles are quite inefficient for optical purposes when the incident radiation of interest is in the ultraviolet or X-ray regions of the electromagnetic spectrum. This inefficiency is attributed to the poor reflectivity of conventional surfaces at these spectral regions. Consequently, when operating in the ultraviolet or X-ray region grazing incidence optical systems are employed.

[0003] One particularly efficient surface commonly used for grazing incidence optical systems is a cone-like surface having a longitudinal axis. One major difficulty of fabricating such a surface is the efficient grinding and polishing, i.e.. finishing, thereof. Conventionally, a typical finishing tool is a substantially rigid rectangular block of material having a contact face that is curved to approximate the shape of the cone-like surface.

[0004] Such a tool, however, is quite inefficient because a cone-like surface has both a longitudinally changing radius of curvature and a transversely changing radius of curvature. Such compound changes of radii of curvature prevent the efficient rotation of such a tool against the optical surface during finishing. Further, if such a tool is moved longitudinally, or parallel, to the optical axis, the change of radius of curvature causes a misfit between the tool and the surface being finished.

[0005] One approach to resolving this problem has been to finish such an optic using a long but very narrow tool. While such a scheme does maintain a better fit of the tool to the surface, the tool must be quite narrow. The use of a narrow tool generally greatly increases the time needed for finishing a grazing incident optic since the material removal of a finishing tool is dependent on the surface contact area between the tool and the surface. Further, with a long narrow tool the changing longitudinal diameter of the optic restricts the maximum excursion of the tool. This restriction further reduces the material removal rate.

[0006] Consequently, there is a substantial need and desire for an apparatus for finishing a cone-like surface that enables both full rotational finishing and extended excursion finishing.

SUMMARY OF THE INVENTION

[0007] Accordingly, this object is accomplished, at least in part, by an apparatus and system, as specified in claims 1 and 7 hereinafter, having rigid members affixed to a flexible finishing member and disposed such that the planes defined by the rigid members intersect in a line coincident with the longitudinal axis of the cone-like surface.

[0008] An apparatus and system as specified in the precharacterising clause of claims 1 and 7 hereinafter is described in EP-A-0 272 362, in which a flexible strip material is held parallel to the axis of a cone-like surface in contact therewith, for finishing purposes.

[0009] Other objects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description read in conjunction with the appended claims and the drawings attached hereto.

BRIEF DESCRIPTION OF THE DRAWING

[0010] The drawing, not drawn to scale, includes:

FIGURE 1 is a perspective view of an apparatus embodying the principles of the present invention;

FIGURE 2 is a perspective view of a system for finishing a cone-like surface embodying the principles of the present invention;

FIGURE 3 is a side view of the system shown in FIGURE 2 taken along the line 3-3 thereof;

FIGURE 4 is a top sectional cut-a-way of the system shown in FIGURE 2; and

FIGURE 5 is a perspective view of another apparatus embodying the principles of the present invention.

DETAILED DESCRIPTION OF INVENTION

[0011] An apparatus for finishing a cone-like surface, generally indicated at 10 in FIGURE 1, includes a flexible base member 12 having first and second rigid members, 14 and 16, respectively, affixed thereto. The first and second rigid members, 14 and 16, respectively, defining first and second planes. The apparatus 10 further includes means 18 for retaining the first and second rigid members such that the planes defined thereby intersect collinearly with the axis 20 of the cone-like surface 22, shown in FIGURE 2, to be finished.

[0012] The apparatus 10 can further include at least one pin member 24 disposed to engage a translation member 26, shown in FIGURES 3, 4 and 5. As more fully discussed hereinafter the pin member 24, serves to permit movement of the base member 12 transverse to the translation member 26 during operation.

[0013] In one embodiment, although not to be deemed a limitation, the base member 12 is generally trapezoidal in its planar unflexed state having the parallel sides thereof of such length as to match the change of radius of the cone-like surface 22 to be finished. As another alternative, the base member 12 may be generally triangular in its planar unflexed state. The first and second rigid members, 14 and 16, respectively, are affixed to the base member 12 and, in one embodiment, include slots 28 extending thereinto to enable engagement with an axial member 30.

[0014] In the preferred embodiment the first and second rigid members, 14 and 16, respectively, each include a plurality of finger members that are disposed on opposing sides or side edges of the base member 12 such that they are interdigitated when the base member 12 is flexed to have the planes defined thereby intersect in a line that is collinear with the axis of the cone-like surface 22.

[0015] In one specific embodiment, the flexible base member 12 can be fabricated from commercially available flexible materials and is, for example, on the order of about 0.32 to 1.27 cm (1/8 to 1/2 inches) thick. In conjunction with the inherent material properties the flexibility of the apparatus 10 is determined by the thickness of the material. Typically, the larger the surface area desired for the base member 12 the thinner the base member 12 will be made. The first and second rigid members, 14 and 16, respectively, can be commercially available materials, including metals and plastics affixed to the base member 12 by either epoxy or screws or such other means as desired.

[0016] In a system 32, shown in FIGURE 2, wherein the apparatus 10 is particularly useful, the means 18 includes the axial member 30 disposed in and positioned by first and second axial member supports, 34 and 36 respectively, disposed on a platform 38. The cone-like optic 22 is, in one embodiment, disposed on first and second pairs of rollers, 40 and 42, respectively. The pairs of rollers, 40 and 42, both support and rotate the cone-like optic 22 being finished. In a typical system 32, the pairs of rollers, 40 and 42, are rotatably connected to a drive means 45. The pairs of rollers, 40 and 42, are mounted on roller mount members 44 having heights adapted to the cone-like optic 22 being finished to ensure that the center line 20, i.e., the axis of rotation thereof is substantially parallel to the plane of the platform 38.

[0017] The axial member 30 is disposed along the axis 20 of the cone-like optic 22 being finished and the apparatus 10 is disposed within the optic 22 with the first and second rigid members, 14 and 16, respectively, being secured by, in one embodiment, the slots 28 to the axial member 30. Such an arrangement ensures that the planes of the first and second rigid members, 14 and 16, respectively, intersect in a line that is collinear with the axis 20 of the optic 22 being finished.

[0018] In the preferred embodiment the bar support members, 34 and 36, each have an opening 46 through which the translation member 26 extends. The translation member 26, in this embodiment, extends through the opening 46 in each support member 34 and 36, and, as shown in FIGURES 3 and 4, is affixed to the pin members 24 extending from the base members 12 of the apparatus 10. In one embodiment, the translation member 26 extends beyond the openings 46 in the support members, 34 and 36, and each end, 48 thereof is captured by motorized pinch rollers 50. Hence, in operation, the finishing of the cone-like surface 22 occurs by the pinch rollers 50 being alternately related to thereby impart an alternating pull force in opposite directions to the translation member 26. Thus, the apparatus 10 is operated with a pull - pull motion as opposed to a push - pull motion and thus the flexible base member 12 contacts the cone-like surface 22 throughout the entire length of the optic 22. Further, the pull - pull motion occurs while the optic 22 is being rotated thus ensuring that the entire inner cone-like surface 22 is finished.

[0019] It is understood that an appropriate slurry and grit material is disposed between the apparatus 10 and the surface 22 being polished during the finishing process.

[0020] The translation member 26 is more clearly shown in FIGURE 3 which is a side view of the system 32 shown in FIGURE 2. As shown therein, the apparatus 10 includes first and second pins members 24 that extend through pin clearance openings 52 in the translation member 26 that allow not only the pull - pull finishing motion to be imparted to the base member 12 in the longitudinal direction but also permits the apparatus 10 to move transversely with respect thereto. Hence, the finishing surface of the flexible base member 12 of the apparatus 10 is in contact with the cone-like surface 22 being polished at all times. Thus, the grinding and polishing operation is more efficient.

[0021] With reference to FIGURE 4 a general top view is shown to further clearly depict how that translation member 26 and the apparatus 10 interact by means of the first and second pin members 24 extending from the apparatus 10 through the translation member 26. The translation member 26 is moved longitudinally by conventional pinch rollers 50 or other reciprocating means.

[0022] It will be understood that although the present apparatus and system have been described with respect to the finishing of an interior cone-like surface the same apparatus based on the same principles, i.e., the intersection of the planes defined by the rigid members being floats with the axis of the optic being polished, can be used, as shown in FIGURE 5, to finish exterior cone-like surfaces. As shown in FIGURE 5 the cone-like surface 22 to be finished is an exterior surface. The planes defined by the first and second rigid members, 14 and 16, respectively, are shown as dashed lines and intersect along a line collinear with the axis 20 of the cone-like surface 22. In such an embodiment, the means 18 for retaining the rigid members, 14 and 16, in proper position can be, for example, a computer controlled turn-buckle secured to the rigid members 14 and 16.

[0023] Although the present invention has been described herein with respect to specific embodiments it will be understood that other configurations and arrangements may also be employed which do not depart from the scope of the appended claims.

Claims

1. An apparatus for finishing a cone-like surface (22) having an axis (20) associated therewith, said apparatus comprising:
   a flexible member (12) having a first major surface;
   and being characterised by additionally comprising:
   first and second rigid members (14,16) defining first and second planes, said rigid members being affixed to said flexible member substantially perpendicularly to said first major surface thereof, said major surface defining a planar geometric shape that, when said planes of said rigid members intersect in a line collinear with said axis (20), closely approximates said cone-like surface (22); and
   means (18) for retaining said rigid members such that said planes defined thereby intersect collinearly with said axis of said cone-like surface.

2. An apparatus according to claim 1, wherein said planar geometric shape is trapezoidal and said first and second rigid members are disposed along the non-parallel edges thereof.

3. An apparatus according to claim 1 wherein said planar geometric shape is triangular.

4. An apparatus according to claim 1, wherein said first rigid member includes a plurality of first finger members (28) and said second rigid member includes a plurality of second finger members (28), said first and second finger members being disposed such that they interdigitate.

5. An apparatus according to claim 4, wherein each said first and second finger member includes a slot extending thereinto from the end thereof distal said flexible member.

6. An apparatus according to claim 1, further comprises:
   means for transversely guiding said flexible base member,
   wherein said transverse guide means includes at least one pin member (24) extending from said flexible base member, and
   wherein said transverse guide means further includes a longitudinal translation member (26) having guide pin openings (52) therein for receiving said at least one pin member.

7. A system for finishing a cone-like surface (22) having an axis (20) associated therewith, said system comprising:
   means (40,45) for rotating said cone-like surface about said axis;
   means (10) for finishing said cone-like surface comprising a flexible member (12) having a first major surface;
   characterised in that:
   said finishing means additionally comprises first and second rigid members (14,16) defining first and second planes, said rigid members being affixed to said flexible member substantially perpendicularly to said first major surface; and
   means (18) for retaining said rigid members such that said planes defined thereby intersect with said axis (20) of said cone-like surface.

8. A system according to claim 7 wherein said rotating means includes:
   first and second pairs of rollers (40), said pair of rollers being disposed to support said cone-like surface such that said axis thereof is substantially horizontal; and
   means (45), associated with at least one roller from each of said pairs of rollers to rotate such that said cone-like surface is rotated.

9. A system according to claim 7, which further comprises:
   means (26) for translating said finishing means in a direction parallel with said axis thereof, and
   means (24), affixed to said finishing means, for interconnecting with said translation means such that said finishing means maintains contact with said cone-like surface.

10. A system according to claim 9 wherein said interconnection means includes:
   at least one pin member (24) affixed to said finishing means and extending therefrom toward said axis of said cone-like surface; and
   means (52), integral with said translation means, for receiving said at least one pin member such that said finishing means can move transversely thereto.

Ansprüche

1. Vorrichtung zum Fertigbearbeiten einer konusähnlichen Oberfläche (22), die eine zugeordnete Achse (20) hat, wobei die Vorrichtung aufweist:
ein flexibles Bauteil (12) mit einer ersten Hauptoberfläche und desweiteren gekennzeichnet ist durch:
erste und zweite starre Bauelemente (14, 16), die erste und zweite Flächen bilden, wobei die starren Bauelemente an dem flexiblen Bauteil im wesentlichen senkrecht zu der ersten Hauptfläche befestigt sind, wobei die Hauptfläche eine plane geometrische Form definiert, die dann, wenn die Flächen der starren Bauelemente sich entlang einer Linie schneiden, die kollinear zu der Achse (20) ist, weitgehend an die konusähnliche Oberfläche (22) angenähert ist und
eine Einrichtung (18) zum Halten der starren Bauteile derart, daß die dadurch definierten Flächen einander kollinear zu der Achse der konusähnlichen Oberfläche schneiden.

2. Vorrichtung gemäß Patentanspruch 1, wobei die plane geometrische Form trapezförmig ist und die ersten und zweiten starren Bauteile entlang deren nicht-parallelen Kanten angeordnet sind.

3. Vorrichtung gemäß Patentanspruch 1, wobei die plane geometrische Form dreieckförmig ist.

4. Einrichtung gemäß Patentanspruch 1, wobei das erste starre Bauelement eine Vielzahl von ersten Fingerteilen (28) hat und das zweite starre Bauelement eine Vielzahl von zweiten Fingerelementen (28) hat, wobei die ersten und zweiten Fingerelemente derart angeordnet sind, daß sie miteinander kämmen.

5. Vorrichtung nach Patentanspruch 4, wobei jedes der ersten und zweiten Fingerelemente einen Schlitz aufweist, der sich in diese von demjenigen Ende hinein erstreckt, das von dem flexiblen Bauteil entfernt ist.

6. Vorrichtung gemäß Patentanspruch 1, wobei diese weiterhin aufweist:
eine Einrichtung zur Querführung des flexiblen Basisteils, und
wobei die Querführungseinrichtung zumindest ein Bolzenteil (24) aufweist, das sich von dem flexiblen Basisteil erstreckt, und
wobei das Querführungsteil des weiteren aufweist ein sich in Längsrichtung erstreckendes Übertragungsglied (26), das Bolzenführungsöffnungen (52) aufweist, zur Aufnahme des zumindest einen Bolzenteils.

7. System zur Fertigbearbeitung einer konusähnlichen Oberfläche (22), die eine damit verbundene Achse (20) aufweist, wobei das System hat:
eine Einrichtung (40, 45) zur Drehung der konusähnlichen Oberfläche um die Achse;
eine Einrichtung (10) zur Fertigbearbeitung der konusähnlichen Oberfläche, mit einem flexiblen Bauteil (12), das eine erste Hauptfläche aufweist, dadurch gekennzeichnet, daß
die Einrichtung zur Fertigbearbeitung zusätzlich erste und zweite starre Bauelemente (14, 16) aufweist, die erste und zweite Flächen definieren, wobei die starren Bauelemente an dem flexiblen Bauteil im wesentlichen senkrecht zu der ersten Hauptfläche befestigt sind;
und eine Einrichtung (18) zum Halten der starren Bauelemente derart, daß die dadurch definierten Flächen sich mit der Achse (20) der konusähnlichen Fläche schneiden.

8. System gemäß Patentanspruch 7, wobei die Einrichtung zur Drehung beinhaltet:
erste und zweite Rollenpaare (40), die derart angeordnet sind, um die konusähnliche Oberfläche derart abzustützen, daß deren Achse im wesentlichen in Horizontalrichtung angeordnet ist und
eine Einrichtung (45), die mit zumindest einer Rolle von jedes der Rollenpaare zusammenwirkt, um diese derart zu drehen, daß die konusähnliche Oberfläche gedreht wird.

9. System gemäß Patentanspruch 7, wobei dieses weiterhin beinhaltet:
eine Einrichtung (26) zur Verschiebung der Einrichtung zur Fertigbearbeitung in einer Richtung, die parallel zu deren Achse ist, und
eine Einrichtung (24), die an der Einrichtung zur Fertigbearbeitung befestigt ist, um eine Verbindung mit dem Übertragungsglied derart herzustellen, daß die Einrichtung zur Fertigbearbeitung die Anlage an der konusähnlichen Oberfläche aufrecht erhält.

10. System gemäß Patentanspruch 9, wobei die Einrichtung zur Verbindung aufweist:
zumindest ein Bolzenteil (24), das an der Einrichtung zur Fertigbearbeitung befestigt ist und das sich von diesem weg hin zur Achse der konusähnlichen Oberfläche erstreckt; und
eine Einrichtung (52), die integral mit der Übertragungseinrichtung ausgebildet ist, um zumindest ein Bolzenteil derart aufzunehmen, daß die Einrichtung zur Fertigbearbeitung in Querrichtung dazu bewegbar ist.

Revendications

1. Appareil pour la finition d'une surface (22) en forme de cône ayant un axe (20) associé à celle-ci, ledit appareil comprenant:
   un élément flexible (12) ayant une première surface principale;
   et étant caractérisé en outre en ce qu'il comprend:
   des premier et second éléments rigides (14, 16) définissant des premier et second plans, lesdits éléments rigides étant fixés audit élément flexible sensiblement perpendiculairement à ladite première surface principale de celui-ci, ladite surface principale définissant une forme géométrique plane qui, lorsque lesdits plans desdits éléments rigides coupent une ligne colinéaire audit axe (20), est très proche de ladite surface en forme de cône (22); et
   un moyen (18) pour retenir lesdits éléments rigides de telle sorte que lesdits plans définis par ceux-ci se coupent de manière colinéaire avec ledit axe de ladite surface en forme de cône.

2. Appareil selon la revendication 1, dans lequel ladite forme géométrique plane est triangulaire.

3. Appareil selon la revendication 1, dans lequel ladite forme géométrique plane est triangulaire.

4. Appareil selon la revendication 1, dans lequel ledit premier élément rigide comporte une pluralité de premiers éléments en forme de doigts (28) et ledit second élément rigide comporte une pluralité de seconds éléments en forme de doigts (28), lesdits premiers et seconds éléments en forme de doigts étant disposés de manière interdigitée.

5. Appareil selon la revendication 4, dans lequel chacun desdits premiers et seconds éléments en forme de doigts comporte une fente s'étendant à l'intérieur de ceux-ci depuis leur extrémité distale dudit élément flexible.

6. Appareil selon la revendication 1, comprenant en outre:
   un moyen pour guider transversalement ledit élément de base flexible,
   dans lequel ledit moyen de guidage transversal comporte au moins un élément de broche (24) s'étendant depuis ledit élément de base flexible, et
   dans lequel ledit moyen de guidage transversal comporte en outre un élément de translation longitudinale (26) comportant des ouvertures (52) de broche de guidage à l'intérieur de celui-ci pour recevoir ledit au moins un élément de broche.

7. Système pour la finition d'une surface (22) en forme de cône ayant un axe (20) associé à celle-ci, ledit système comprenant:
   un moyen (40, 45) pour faire tourner ladite surface en forme de cône autour dudit axe;
   un moyen (10) pour la finition de ladite surface en forme de cône comprenant un élément flexible (12) ayant une première surface principale;
   caractérisé en ce que:
   ledit moyen de finition comprend en outre des premier et second éléments rigides (14, 16) définissant des premier et second plans, lesdits éléments rigides étant fixés audit élément flexible sensiblement perpendiculairement à ladite première surface principale; et
   un moyen (18) pour retenir lesdits éléments rigides de telle sorte que lesdits plans définis par ceux-ci se coupent avec ledit axe (20) de ladite surface en forme de cône.

8. Système selon la revendication 7, dans lequel ledit moyen rotatif comporte:
   des première et seconde paires de rouleaux (40), lesdites paires de rouleaux étant disposées pour supporter ladite surface en forme de cône de telle sorte que ledit axe de celle-ci soit sensiblement horizontal ; et
   un moyen (45), associé au moins à un rouleau de chacune desdites paires de rouleaux, destiné à tourner, de manière à faire tourner ladite surface en forme de cône.

9. Système selon la revendication 7, comprenant en outre:
   un moyen (26) pour faire subir une translation audit moyen de finition, dans une direction parallèle audit axe de celui-ci, et
   un moyen (24), fixé audit moyen de finition, pour l'interconnexion avec ledit moyen de translation, de telle sorte que ledit moyen de finition maintienne le contact avec ladite surface en forme de cône.

10. Système selon la revendication 9, dans lequel ledit moyen d'interconnexion comporte:
   au moins un élément de broche (24) fixé audit moyen de finition et s'étendant à partir de celui-ci vers ledit axe de ladite surface en forme de cône; et
   un moyen (52), formant partie intégrante dudit moyen de translation, pour recevoir ledit au moins un élément de broche de telle sorte que ledit moyen de finition puisse se déplacer transversalement à celui-ci.

Drawing