(19)
(11)EP 0 436 965 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
30.11.1994 Bulletin 1994/48

(21)Application number: 90125858.2

(22)Date of filing:  31.12.1990
(51)International Patent Classification (IPC)5C03B 23/03, C03B 23/025, C03B 27/044

(54)

Method of and system for pressing sheet glass

Verfahren und Vorrichtung zum Pressen von Flachglas

Procédé et appareil pour le pressage de feuilles de verre


(84)Designated Contracting States:
BE DE ES FR GB IT SE

(30)Priority: 11.01.1990 JP 3910/90

(43)Date of publication of application:
17.07.1991 Bulletin 1991/29

(73)Proprietor: NIPPON SHEET GLASS CO. LTD.
Chuo-ku Osaka-shi Osaka-fu (JP)

(72)Inventors:
  • Yoshizawa, Hideo, c/o Nippon Sheet Glass Co. Ltd.
    Osaka-shi, Osaka (JP)
  • Saikawa, Yasuhiko, c/o Nippon Sheet Glass Co. Ltd
    Osaka-shi, Osaka (JP)
  • Tanaka, Mitsuo, c/o Nippon Sheet Glass Co. Ltd
    Osaka-shi, Osaka (JP)

(74)Representative: Prechtel, Jörg, Dipl.-Phys. Dr. et al
Patentanwälte H. Weickmann, Dr. K. Fincke F.A. Weickmann, B. Huber Dr. H. Liska, Dr. J. Prechtel, Dr. B. Böhm Postfach 86 08 20
81635 München
81635 München (DE)


(56)References cited: : 
EP-A- 0 143 691
FR-A- 2 112 115
EP-A- 0 361 263
US-A- 3 582 304
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description


    [0001] The present invention relates to a method of pressing a glass sheet, comprising the steps of: heating the glass sheet nearly to the softening point thereof by passing the glass sheet through a heating furnace, clamping only a peripheral edge of the heated glass sheet between first and second molds, and pressing a third mold against a central region of the glass sheet with the peripheral edge thereof clamped, thereby to cause said central region to project beyond said peripheral edge, whereby the central region of the glass sheet is pressed to a curved shape.

    [0002] The present invention also relates to a system for pressing a glass sheet, comprising:
    a heating furnace for heating the glass sheet nearly to its softening point, and a pressing apparatus comprising first and second molds adapted to clamp only a peripheral edge of the heated glass sheet at opposite sides thereof, and a third mold adapted to cause only a central region of the glass sheet which is surrounded by the clamped peripheral edge thereof, to project beyond said peripheral edge, whereby the central region of the glass sheet is pressed to a curved shape.

    [0003] The method and the system according to the invention are provided for pressing a sheet of glass into a highly curved sheet of glass which has a relatively small radius of curvature.

    [0004] Some front and rear window glass sheets on automobiles are curved to relatively small radii of curvature. One known apparatus for bending a sheet of glass to a small radius of curvature is disclosed in Japanese Patent Publication No. 61(1986)-28611.

    [0005] The disclosed apparatus has convex and concave molds for bending a glass sheet therebetween. The concave mold is composed of a central pressing mold member, and left and right pressing mold members. After the glass sheet is clamped between the central pressing mold member and the convex mold, the glass sheet is pressed to a curved shape between the central, left, and right mold members and the convex mold.

    [0006] The convex mold and the concave mold, which is divided into the mold members, are however incapable of sufficiently stretching a central region of the glass sheet, so that the pressed glass sheet tends to have an insufficiently curved configuration. If the glass sheet were forcibly curved to correct insufficiently curved configuration, then the glass sheet would be liable to crack due to undue pressure. If the entire surface of the glass sheet were heated to high temperature, then a press mark would be left on the peripheral edges of the glass sheet by surface materials on the molds.

    [0007] According to a solution disclosed in Japanese Patent Publication No. 61(1986)-17775, only the central region of a glass sheet is heated to a higher temperature than the other regions thereof, so that only the central region of the glass sheet can be curved to a greater degree. However, it has proven highly difficult to control the localized heating accurately.

    [0008] A method and a system of the above-mentioned type is disclosed in GB-A-1 376 946. According to this known method a heated sheet of flat glass is substantially vertically disposed between two axially displaceable frames which are substantially vertically disposed and which are applied against each other while gripping the peripheral edge of the glass sheet. After gripping the peripheral edge by means of the frames a slideable punch placed within the perimeter of one of the frames and directed substantially horizontally towards the interior of the perimeter of the other frame is pressed against the central region of the glass sheet with the peripheral edge thereof being gripped by the frames, thereby to project said central region from one side to the other side thereof, whereby the central region of the glass sheet is pressed to a curved shape according to the shape of the slideably punch. The frames have flat shaping surfaces such that the peripheral edge of the glass sheet is maintained flat during the pressing procedure such that the end product has a flat edge zone. Therefore, the method and the system according to GB-A-1 376 946 are not suited to form a glass sheet with a continuously curved concave-convex shape of the glass sheet as a whole as required for some front and rear window glass sheets for automobiles.

    [0009] US-A-3 582 304 discloses a method and a system similar to the method and the system according to GB-A-1 376 946 for forming a glass sheet to a curved shape with a flat peripheral edge portion of the glass sheet.

    [0010] A method and a system for pressing a glass sheet to a continuously curved overall concave-convex shape are disclosed in US-A-4 557 745. According to this known method, the heated glass sheet is conveyed in horizontal position onto a shaping bed having rotating shaping elements which are curved and extend transverse to the conveying direction in order to preliminarily curve the sheet. In a second bending phase the glass sheet is subjected to a complementary bending by passage between the two molds of a bending press which presses the glass sheet to the final curved shape. US-A-4 557 745 does not disclose to clamp only a peripheral edge of the heated glass sheet between first and second molds and pressing a third mold against a central region of the glass sheet with the peripheral edge thereof clamped.

    [0011] It is an object of the present invention to provide a method of and system for easily pressing a sheet of glass to a highly curved sheet of glass having a continuous overall concave-convex shape and a relatively small radius of curvature without developing effects such as cracks or the like in the sheet of glass.

    [0012] To solve this problem the method according to the invention is characterized in that said first and second molds comprise substantially complementary curved shaping surfaces such that the periperhal edge of the glass sheet is formed to a concave-convex shape while clamping the peripheral edge of the heated glass sheet between the first and second molds and in that said third mold is adapted to cooperate with the second mold to provide a common shaping surface such that a continuous concave-convex shape of the glass sheet as a whole is obtained by pressing the third mold against the central region of the glass sheet.

    [0013] The method according to the invention may be carried out by means of the system of the invention which is characterized in that said first and second molds comprise substantially complementarily curved convex and concave shaping surfaces for pressing the peripheral edge of the glass sheet to a concave-convex shape, and in that said third mold is adapted to cooperate with the second mold to provide a common shaping surface such that a continuous concave-convex shape of the glass sheet as a whole is obtained by pressing the third mold against the central region of the glass sheet.

    [0014] The above and further objects, details and advantages of the present invention will become apparent from the following detailed description of preferred embodiments thereof, when read in conjunction with the accompanying drawings.

    Fig. 1 is a fragmentary front elevational view of a system for pressing a sheet of glass to curved shape according to a preferred embodiment of the present invention;

    FIG. 2 is a perspective view of preliminary shaper rolls as a feed means capable of preliminarily shaping a heated sheet of glass in the pressing system shown in FIG. 1;

    FIG. 3 is an enlarged front elevational view of a central mold member and left and right side mold members of a convex mold of a pressing apparatus in the pressing system;

    FIG. 4 is an enlarged side elevational view of the central mold member and front and right side mold members of the convex mold of the pressing apparatus;

    FIG. 5 is a bottom view of the convex mold of the pressing apparatus;

    FIG. 6 is a perspective view of a concave mold of the pressing apparatus;

    FIG. 7(A) is a front elevational view showing the pressing apparatus in a first phase of operation for pressing a sheet of glass;

    FIG. 7(B) is a front elevational view showing the pressing apparatus in a second phase of operation for pressing a sheet of glass;

    FIG. 7(C) is a front elevational view showing the pressing apparatus in a third phase of operation for pressing a sheet of glass; and

    FIG. 8 is a bottom view of a modified convex mold according to the present invention.



    [0015] FIG. 1 schematically shows a pressing system which includes an apparatus, generally denoted at 1, for pressing a glass sheet G to a highly curved shape. The glass sheet G is heated nearly to a softening point thereof by a heating furnace 2 located downstream of the pressing apparatus 1, while the glass sheet G is traveling through the heating furnace 2. The heated glass sheet G is transferred by feed rolls 3 onto in-mold rolls 4 in the pressing apparatus 1, in which the glass sheet G is pressed to a desired curved shape. After the glass sheet G is pressed, it is delivered into a cooling device 6 by feed rolls 5. The feed rolls 3, the in-mold rolls 4, and the feed rolls 5 jointly serve as a feed mechanism for feeding the glass sheet G successively through the heating, pressing, and cooling stations.

    [0016] As shown in FIG. 2, each of the feed rolls 3 is in the form of a preliminary shaper roll comprising a core 3a curved to a shape which is preliminarily to be given to the glass sheet G, and a heat-resistant sleeve 3b rotatably fitted over the core 3a. Therefore, the glass sheet G is preliminarily shaped to a preliminary shape by the feed rolls 3 while being delivered by the feed rolls 3. When the preliminarily shaped glass sheet G is subsequently pressed by the pressing apparatus 1, the glass sheet G can be pressed to a large curvature without undue stresses because the glass sheet G does not undergo a large abrupt change in shape.

    [0017] The pressing apparatus 1 generally comprises an upper convex mold 7 having a convex shaping surface and a lower concave mold 11 having a concave shaping surface which is substantially complementary to the convex shaping surface of the upper convex mold 7. As shown in FIG. 5, the upper convex mold 7 is composed of a central mold member 8 and a peripheral mold assembly 9 disposed around the central mold member 8. The peripheral mold assembly 9 comprises front and rear side mold members 9a, 9b (FIG. 4) which are spaced from each other in the direction in which the glass sheet G is fed, and left and right side mold members 9c, 9d (FIG. 3) spaced from each other in a direction substantially normal to the direction in which the glass sheet G is fed. The side mold members 9a, 9b, 9c, 9d can independently be moved vertically by respective cylinder units 10a, 10b, 10c, 10d (actuator means). The central mold member 8 can also independently be moved vertically by a cylinder unit 8a (actuator means). As shown in FIG. 6, the lower concave mold 11 is in the form of a fixed unitary ring mold for supporting only the peripheral edge of the glass sheet G. In the illustrated embodiment, therefore, the upper convex mold 7 is vertically movable by the cylinder units 8a and 10a through 10d, whereas the lower concave mold 11 is vertically fixed in position.

    [0018] The shaping surface of each of the molds 7, 11 is covered with a surface material layer 12 attached thereto, as shown in FIG. 6. The surface material layer 12 may be made of a woven or felt layer of glass fibers, ceramic fibers, metallic fibers, aramid fibers, or the like.

    [0019] To press the glass sheet G, the glass sheet G is heated nearly to its softening point while being passed through the heating furnace 2. The heated glass sheet G is preliminarily shaped by the feed rolls 3 and transferred onto the in-mold rolls 4 in the pressing apparatus 1. Then, the in-mold rolls 4 are lowered to place the glass sheet G on the lower concave mold 11. Alternatively, the lower concave mold 11 may be elevated to receive the glass sheet G from the in-mold rolls 4.

    [0020] Substantially at the same time, the cylinder units 10a, 10hb are extended to lower the front and rear side mold members 9a, 9b to clamp the glass sheet G at its front and rear peripheral edge portions between the front and rear side mold members 9a, 9b and the lower concave mold or ring mold 11, as shown in FIG. 7(A) (first phase of operation of the pressing apparatus 1).

    [0021] Then, as shown in FIG. 7(B), the cylinder units 10c, 10d, 8a are extended to lower the side mold members 9c, 9d and the central mold member 8, thus bending the overall surface of the glass sheet G (second phase of operation of the pressing apparatus 1). At this time, the central mold member 8 is further lowered after the entire peripheral edge of the glass sheet G is fixed or clamped by the side mold members 9a, 9b, 9c, 9d and the lower concave mold 11. Stated otherwise, prior to further downward movement of the central mold member 8, the left and right peripheral edge portions of the glass sheet G are clamped between the side mold members 9c, 9d of the upper convex mold member 7 and the lower concave mold member 11 (by this time, the front and rear peripheral edge portions of the glass sheet G have already been clamped between the side mold members 9a, 9b and the lower concave mold 11). Therefore, the entire peripheral edge of the glass sheet G is completely pressed by the side mold members 9a, 9b, 9c, 9d and the lower concave mold 11 before the central region of the glass sheet G is pressed between the central mold member 8 and the lower concave mold 11.

    [0022] Thereafter, as shown in FIG. 7(C), the central mold member 8 is further lowered to stretch and project the central region of the glass sheet G further downwardly from an upper side to a lower side thereof, thus pressing the glass sheet G to a desired curved shape (third phase of operation of the pressing apparatus 1). Then, the glass sheet G is delivered by the feed rolls 5 into the cooling device 6, in which the glass sheet S is quickly cooled and hence tempered.

    [0023] In FIGS. 7(A), 7(B), and 7(C), the side mold member 9b is omitted from illustration. While the lower concave mold 11 is shown as being a ring mold, it may be a full-surface mold for contacting the entire lower surface of the glass sheet S.

    [0024] In the above embodiment, in order to clamp the peripheral edge of the glass sheet G between the convex and concave molds 7, 11 before the central mold member 8 is lowered, the front and rear side mold members 9a, 9b are lowered, and thereafter the left and right mold members 9c, 9d are lowered. However, the four side mold members 9a, 9b, 9c, 9d may simultaneously be lowered to clamp all the peripheral portions of the glass sheet G between the convex and concave molds 7, 11 at the same time.

    [0025] Furthermore, while the peripheral mold assembly 9 of the upper convex mold 7 is constructed of the four side mold members 9a, 9b, 9c, 9d, the peripheral mold assembly may comprise, as shown in FIG. 8, a unitary upper ring mold member 9' which neatly mate with the unitary lower ring mold 11. In operation, before the central mold member 8 is lowered, the upper ring mold member 9' is lowered in its entirety to clamp the entire peripheral edge of the glass sheet G between itself and the lower concave mold 11. The upper ring mold member 9' is simpler in construction and allows a quicker pressing process than the peripheral mold assembly 9 shown in FIG. 5.

    [0026] With the present invention, as described above, the peripheral edge of the glass sheet is first clamped between the peripheral edge of the convex mold and the concave mold, and then the central mold member of the convex mold is pressed against the central region of the glass sheet and pushed further to curve the central region of the glass sheet. Therefore, a sheet of glass can be pressed accurately to a highly curved shape without wrinkles or cracks. The sheet of glass thus curved is suitable for use as front and rear window glass sheets for automobiles.

    [0027] Although there have been described what are at present considered to be the preferred embodiments of the present invention, it will be understood that the invention may be embodied in other specific forms without departing from the essential characteristics thereof. The present embodiments are therefore to be considered in all aspects as illustrative, and not restrictive. The scope of the invention is indicated by the appended claims rather than by the foregoing description.
    The invention as described above can be summarized as follows:
       A glass sheet is heated nearly to its softening point while being passed through a heating furnace. The heated glass sheet is then clamped at its peripheral edge between first and second molds. Thereafter, a third mold is pressed against a central region of the glass sheet with the peripheral edge thereof clamped, thereby to project the central region from one side to the other side thereof. The glass sheet is thus pressed to a desired highly curved shape with no wrinkles or cracks developed therein. The glass sheet is clamped and pressed by a pressing apparatus which includes a fixed concave ring mold as the first mold, and a movable convex mold comprising a peripheral mold assembly as the second mold and a central mold member as the third mold. The glass sheet thus curved is typically used as a front or rear window glass sheet for automobiles.


    Claims

    1. A method of pressing a glass sheet (G), comprising the steps of:
    heating the glass sheet (G) nearly to the softening point thereof by passing the glass sheet (G) through a heating furnace (2),
    clamping only a peripheral edge of the heated glass sheet (G) between first and second molds (11, 9), and pressing a third mold (8) against a central region of the glass sheet (G) with the peripheral edge thereof clamped, thereby to cause said central region to project beyond said peripheral edge, whereby the central region of the glass sheet (G) is pressed to a curved shape,
    characterized in that said first and second molds (11, 9) comprise substantially complementary curved shaping surfaces such that the peripheral edge of the glass sheet (G) is formed to a concave-convex shape while clamping the peripheral edge of the heated glass sheet (G) between the first and second molds (11, 9), and in that said third mold (8) is adapted to cooperate with the second mold to provide a common shaping surface such that a continuous concave-convex shape of the glass sheet (G) as a whole is obtained by pressing the third mold (8) against the central region of the glass sheet (G).
     
    2. A method according to claim 1, wherein said first mold (11) comprises a lower concave ring mold for placing the peripheral edge of the glass sheet (G) thereon, and said second and third molds (9, 8) comprise a periphereal mold assembly (9a-9d) and a central mold member (8) surrounded by said peripheral mold assembly (9a-9d), said peripheral mold assembly (9a-9d) and said central mold member (8) jointly constituting an upper convex mold (7) for mating with said lower concave ring mold (11), and wherein said steps of clamping the peripheral edge and pressing the third mold (11) against a central region of the glass sheet (G) comprise the steps of placing the glass sheet (G) on said ring mold (11), thereafter lowering said peripheral mold assembly (9a-9d) and said central mold member (8) to press and clamp only said peripheral edge of the glass sheet (G) between said peripheral mold assembly (9a-9d) and said ring mold (11), and further lowering said central mold member (8) to project said central region of the glass sheet (G) from said one side to said other side thereof.
     
    3. A method according to claim 2, wherein said concave ring mold (11), said periphereal mold assembly (9a-9d), and said central mold member (8) jointly constitute a pressing apparaturs (1), further including the steps of:
    feeding the heated glass sheet (G) from the heating furnace (2) to said pressing apparatus (1) with feed means (3), and preliminarily shaping the heated glass sheet (G) with said feed means (3) before the heated glass sheet (G) is pressed by said pressing apparatus (1).
     
    4. A method according to claim 3, wherein said peripheral mold assembly (9a-9d) comprises a pair of front and rear side mold members (9a, 9b) for clamping front and rear peripheral edge portions of the glass sheet (G) between themselves and said ring mold (11), said front and rear side mold members (9a, 9b) being spaced from each other in the direction in which the heated glass sheet (G) is fed to said pressing apparatus (1) by said feed means (3), and a pair of left and right side mold members (9c, 9d) for clamping left and right peripheral edge portions of the glass sheet (G) between themselves and said ring mold (11), and wherein said step of lowering said peripheral mold assembly (9a-9d) comprises the steps of clamping the front and rear peripheral edge portions of the preliminarily shaped glass sheet (G) between said front and rear side mold members (9a, 9b) and said ring mold (11), and thereafter clamping the left and right peripheral edge portions of the preliminarily shaped glass sheet (G) between said left and right side mold members (9c, 9d) and said ring mold (11).
     
    5. A method according to claim 2, wherein said peripheral mold assembly (9) comprises a unitary ring mold (9') for mating with said lower ring mold (11).
     
    6. A system for pressing a glass sheet, comprising:
    a heating furnace (2) for heating the glass sheet (G) nearly to its softening point, and
    a pressing apparatus (1) comprising first and second molds (11, 9) adapted to clamp only a peripheral edge of the heated glass sheet (G) at opposite sides thereof, and a third mold (8) adapted to cause only a central region of the glass sheet (G), which is surrounded by the clamped peripheral edge thereof, to project beyond said peripheral edge, whereby the central region of the glass sheet (G) is pressed to a curved shape,
    characterized in that said first and second molds (11, 9) comprise substantially complementary curved convex and concave shaping surfaces for pressing the peripheral edge of the glass sheet (G) to a concave-convex shape, and
    in that said third mold (8) is adapted to cooperate with the second mold (11) to provide a common shaping surface such that a continuous concave-convex shape of the glass sheet (G) as a whole is obtained by pressing the third mold (8) against the central region of the glass sheet (G).
     
    7. A system according to claim 6, wherein said first mold (11) is a concave mold for engaging at least the peripheral edge of the glass sheet (G),
    said second mold (9) comprises a movable mold assembly (9a-9d) for clamping the peripheral edge of the glass sheet (G) between itself and said concave mold (11), said third mold (8) is a movable mold member surrounded by said movable mold assembly (9a-9d), said movable mold assembly (9a-9d) and said movable mold member (8) jointly constitute a convex mold (7) for mating with said concave mold (11), and wherein actuator means (8a, 10a-10d) are provided and adapted to move said movable mold assembly (9a-9d) to press the peripheral edge of the glass sheet (G) from said one side thereof thereby to clamp the peripheral edge of the glass sheet (G) between said movable mold assembly (9a-9d) and said concave mold (11), and to thereafter move said movable mold member (8) to project the central region of the glass sheet (G) toward said other side thereof.
     
    8. A system according to claim 7, wherein said concave mold (11) comprises a lower ring mold.
     
    9. A system according to claim 7, further including a cooling device (6) for quickly cooling the glass sheet (G) pressed by said pressing apparatus (1) thereby to temper the glass sheet (G), and a feed roll mechanism (3, 4, 5) including feed means (3) for feeding the glass sheet (G) from said heating furnace (2) to said pressing apparatus (1), said feed means comprise preliminary shaper rolls (3) for preliminarily shaping the glass sheet (G) heated by said heating furnace (2).
     
    10. A system according to claim 9, wherein said movable mold assembly comprises a pair of front and rear side mold members (9a, 9b) for clamping front and rear peripheral edge portions of the glass sheet (G) between themselves and said concave mold (11), said front and rearside mold members (9a, 9b) being spaced from each other in the direction in which the heated glass sheet (G) is fed to said pressing apparatus (1) by said preliminary shaper rolls (3), and a pair of left and right side mold members (9c, 9d) for clamping left and right peripheral edge portions of the glass sheet (G) between themselves and said concave mold (11) after the front and rear peripheral edges of the glass sheet (G) are clamped.
     
    11. A system according to claim 8, wherein said movable mold assembly (9) comprises a unitary ring mold (9') for mating with said lower ring mold (11).
     


    Ansprüche

    1. Verfahren zum Pressen einer Glasscheibe (G), umfassend die Schritte:
    daß man die Glasscheibe (G) bis in die Nähe ihres Erweichungspunktes erhitzt, indem man die Glasscheibe (G) einen Heizofen (2) durchlaufen läßt,
    daß man nur einen peripheren Rand der erhitzten Glasscheibe (G) zwischen einer ersten und einer zweiten Form (11, 9) einklemmt und eine dritte Form (8) gegen einen zentralen Bereich der Glasscheibe (G) preßt, während der periphere Rand der Glasscheibe (G) eingeklemmt ist, um so zu bewirken, daß sich der zentrale Bereich über den peripheren Rand hinaus erhebt, wodurch der zentrale Bereich der Glasscheibe (G) in eine gekrümmte Gestalt gepreßt wird,
    dadurch gekennzeichnet, daß die erste und die zweite Form (11, 9) im wesentlichen komplementär gekrümmte Formungsflächen umfassen, so daß der periphere Rand der Glasscheibe (G) beim Einklemmen des peripheren Randes der erhitzten Glasscheibe (G) zwischen der ersten und der zweiten Form in eine konkav-konvexe Gestalt geformt wird, und daß die dritte Form (8) dazu eingerichtet ist, mit der zweiten Form zur Bildung einer gemeinsamen Formfläche zusammenzuwirken, so daß durch Pressen der dritten Form (8) gegen den zentralen Bereich der Glasscheibe (G) eine kontinuierliche konkav-konvexe Gestalt der Glasscheibe (G) insgesamt erhalten wird.
     
    2. Verfahren nach Anspruch 1, wobei die erste Form (11) eine untere, konkave Ringform aufweist, auf welcher der periphere Rand der Glasscheibe (G) zu plazieren ist, und daß die zweite und die dritte Form (9, 8) eine periphere Formbaugruppe (9a - 9d) und ein von der peripheren Formbaugruppe (9a - 9d) umgebenes zentrales Formteil (8) umfassen, wobei die periphere Formbaugruppe (9a - 9d) und das zentrale Formteil (8) gemeinsam eine obere, konvexe Form (7) zur Anpassung an die untere, konkave Ringform (11) bilden und wobei die Schritte des Klemmens des peripheren Randes und des Pressens der dritten Form (11) gegen den zentralen Bereich der Glasscheibe (G) die Schritte umfassen, daß man die Glasscheibe (G) auf die Ringform (11) plaziert, daß man danach die periphere Formbaugruppe (9a - 9d) und das zentrale Formteil (8) absenkt, um nur den peripheren Rand der Glasscheibe (G) zwischen der peripheren Formbaugruppe (9a - 9d) und der Ringform (11) einzuklemmen und zu pressen, und daß man das zentrale Formteil (8) weiter absenkt, um den zentralen Bereich der Glasscheibe (G) von deren einer Seite zur anderen Seite vorzuheben.
     
    3. Verfahren nach Anspruch 2, wobei die konkave Ringform (11), die periphere Formbaugruppe (9a - 9d) und das zentrale Formteil (8) gemeinsam eine Preßvorrichtung (1) bilden, wobei das Verfahren ferner die Schritte enthält, daß man die erhitzte Glasscheibe (G) mittels Fördermitteln von dem Heizofen (2) zu der Preßvorrichtung (1) fördert und die erhitzte Glasscheibe (G) mittels der Fördermittel (3) vorformt, bevor die erhitzte Glasscheibe (G) mittels der Preßvorrichtung (1) gepreßt wird.
     
    4. Verfahren nach Anspruch 3, wobei die periphere Formbaugruppe (9a - 9d) ein Paar aus einem vorderen und aus einem hinteren Seitenformteil (9a, 9b) aufweist, um zwischen diesen und der Ringform (11) einen vorderen und einen hinteren peripheren Randbereich der Glasscheibe (G) einzuklemmen, wobei das vordere - und das hintere Seitenformteil (9a, 9b) in der Richtung voneinander beabstandet sind, in welcher die erhitzte Glasscheibe (G) mittels der Fördermittel (3) zu der Preßvorrichtung (1) gefördert wird, wobei die periphere Formbaugruppe (9a - 9d) ferner ein Paar aus einem linken - und einem rechten Seitenformteil (9c, 9d) aufweist, um zwischen diesen und der Ringform (11) einen linken - und einen rechten peripheren Randbereich der Glasscheibe (G) einzuklemmen, und wobei der Schritt des Absenkens der peripheren Formbaugruppe (9a - 9d) die Schritte umfaßt, daß man den vorderen und den hinteren peripheren Randbereich der vorgeformten Glasscheibe (G) zwischen dem vorderen - sowie dem hinteren Seitenformteil (9a, 9b) und der Ringform (11) einklemmt und daß man danach den linken und den rechten peripheren Randbereich der vorgeformten Glasscheibe (G) zwischen dem linken sowie dem rechten Seitenformteil (9c, 9d) und der Ringform (11) einklemmt.
     
    5. Verfahren nach Anspruch 2, wobei die periphere Formbaugruppe (9) eine unitäre Ringform passend zur unteren Ringform (11) umfaßt.
     
    6. System zum Pressen einer Glasscheibe, umfassend:
    einen Heizofen (2) zum Erhitzen der Glasscheibe (G) bis in die Nähe ihres Erweichungspunktes und
    eine Preßvorrichtung (1) mit einer ersten - und einer zweiten Form (11, 9), die dazu eingerichtet sind, nur einen peripheren Rand der erhitzten Glasscheibe (G) an gegenüberliegenden Seiten davon einzuklemmen, und mit einer dritten Form (8), die dazu eingerichtet ist, nur einen von dem eingeklemmten peripheren Rand umgebenen zentralen Bereich der Glasscheibe (G) dazu zu veranlassen daß er sich über den peripheren Rand hinaus erhebt, wodurch der zentrale Bereich der Glasscheibe (G) in eine gekrümmte Gestalt gepreßt wird,
    dadurch gekennzeichnet, daß die erste - und die zweite Form (11, 9) im wesentlichen komplementär gekrümmte konvexe und konkave Formungsflächen aufweisen, um den peripheren Rand der Glasscheibe (G) in eine konkav-konvexe Gestalt zu pressen, und daß die dritte Form (8) dazu eingerichtet ist, mit der zweiten Form (11) zur Bereitstellung einer gemeinsamen Formungsfläche zusammenzuwirken, so daß beim Pressen der dritten Form (8) gegen den zentralen Bereich der Glasscheibe (G) eine kontinuierliche konkav-konvexe Gestalt der Glasscheibe (G) insgesamt erhalten wird.
     
    7. System nach Anspruch 6, wobei die erste Form (11) eine konkave Form zur Erfassung zumindest des peripheren Randes der Glasscheibe (G) ist, wobei die zweite Form (9) eine bewegbare Formbaugruppe (9a - 9d) aufweist, um zwischen sich und der konkaven Form (11) den peripheren Rand der Glasscheibe (G) einzuklemmen, wobei die dritte Form (8) ein bewegbares Formteil ist, welches von der bewegbaren Formbaugruppe (9a - 9d) umgeben ist, wobei die bewegbare Formbaugruppe (9a -9d) und das bewegliche Formteil (8) gemeinsam eine konvexe Form (7) passend zu der konkaven Form (11) bilden und wobei Betätigungsmittel (8a, 10a - 10d) vorgesehen und dazu eingerichtet sind, die bewegbare Formbaugruppe (9a - 9d) zu bewegen, um den peripheren Rand der Glasscheibe (G) von deren einer Seite her zu pressen, damit der periphere Rand der Glasscheibe (G) zwischen der bewegbaren Formbaugruppe (9a - 9d) und der konkaven Form (11) eingeklemmt wird, und danach das bewegbare Formteil (8) zu bewegen, um den zentralen Bereich der Glasscheibe (G) zu deren anderen Seite hin zu erheben.
     
    8. System nach Anspruch 7, wobei die konkave Form (11) eine untere Ringform umfaßt.
     
    9. System nach Anspruch 7, ferner umfassend eine Kühleinrichtung (6) zum raschen Abkühlen der mittels der Preßvorrichtung (1) gepreßten Glasscheibe (G), um die Glasscheibe (G) abzuschrecken, und ein Förderrollenmechanismus (3, 4, 5) mit Förderrollen (3) zur Förderung der Glasscheibe (G) von dem Heizofen (2) zu der Preßvorrichtung (1), wobei die Fördermittel Vorformungsrollen (3) zur Vorformung der von dem Heizofen (2) erhitzten Glasscheibe (G) umfassen.
     
    10. System nach Anspruch 9, wobei die bewegbare Formbaugruppe ein Paar aus einem vorderen und einem hinteren Seitenformteil (9a, 9b) aufweist, um zwischen diesen und der konkaven Form (11) einen vorderen - und einen hinteren peripheren Randbereich der Glasscheibe (G) einzuklemmen, wobei das vordere -und das hintere Seitenformteil (9a, 9b) in der Richtung voneinander beabstandet sind, in der die erhitzte Glasscheibe (G) mittels der Vorformungsrollen (3) zu der Preßvorrichtung (1) befördert wird und wobei die bewegbare Formbaugruppe ein Paar aus einem linken und einem rechten Seitenformteil (9c, 9d) umfaßt, um zwischen diesen und der konkaven Form (11) einen linken - und einen rechten peripheren Randbereich der Glasscheibe (G) einzuklemmen, nachdem der vordere - und der hintere periphere Randbereich der Glasscheibe (G) eingeklemmt worden ist.
     
    11. System nach Anspruch 8, wobei die bewegbare Formbaugruppe (9) eine unitäre Ringform (9') passend zu der unteren Ringform (11) aufweist.
     


    Revendications

    1. Procédé de pressage d'une feuille en verre (G), comprenant les étapes dans lesquelles:
       on chauffe la feuille de verre (G) à une température proche de son point de ramollissement, en faisant passer la feuille de verre (G) dans un four de chauffage (2),
       on serre seulement un bord périphérique de la feuille de verre (G) chauffée entre des premier et deuxième moules (11, 9) et on presse un troisième moule (8) contre une zone centrale de la feuille de verre (G), tout en serrant son bord périphérique, de manière à forcer ladite zone centrale à faire saillie au-delà dudit bord périphérique, et à presser la zone centrale de la feuille de verre (G) selon une forme souhaitée,
       caractérisé en ce que lesdits premier et deuxième moules (11, 9) comprennent des surfaces de façonnage incurvées de façon pratiquement complémentaire, de manière à conférer au bord périphérique de la feuille de verre (G) une forme concave-convexe, tout en serrant le bord périphérique de la feuille de verre (G) chauffée entre les premiers et deuxième moules (11, 9), et en ce que ledit troisième moule (8) est adapté de façon à coopérer avec le deuxième moule, afin de fournir une surface de façonnage commune, de manière qu'une forme concave-convexe continue de toute la feuille de verre (G) soit obtenue en pressant le troisième moule (8) sur la zone centrale de la feuille de verre (G).
     
    2. Procédé selon la revendication 1, dans lequel ledit premier moule (11) comprend un moule annulaire concave inférieur servant à placer sur lui le bord périphérique de la feuille de verre (G), et lesdits deuxième et troisième moules (9, 8) comprennent un ensemble de moules périphériques (9a à 9d) et un organe formant moule central (8) entouré par ledit ensemble de moules périphériques (9a à 9d), ledit ensemble de moules périphériques (9a à 9d) et ledit organe formant moule central (8) constituant ensemble un moule convexe supérieur (7), destiné à s'accoupler audit moule annulaire concave (11) inférieur, et dans lequel lesdites étapes de serrage du bord périphérique et de pressage du troisième moule (8) sur une zone centrale de la feuille de verre (G) comprennent les étapes dans lesquelles on place la feuille de verre (G) sur ledit moule annulaire (11), on abaisse ensuite ledit ensemble de moules périphériques (9a à 9d) et ledit organe formant moule central (8) afin de presser et de serrer seulement ledit bord périphérique de la feuille de verre (G) entre ledit ensemble de moules périphériques (9a à 9d) et ledit moule annulaire (11), et on abaisse en outre ledit organe formant moule central (8), afin de faire saillie de ladite zone centrale de la feuille de verre (G), d'un côté à l'autre de cette dernière.
     
    3. Procédé selon la revendication 2, dans lequel ledit moule annulaire concave (11), ledit ensemble de moules périphériques (9a à 9d) et ledit organe formant moule central (8) constituent ensemble un dispositif de pressage (1), comprenant en outre les étapes dans lesquelles:
       on amène la feuille de verre (G) chauffée provenant du four de chauffage (2) audit dispositif de pressage (1), à l'aide d'un moyen d'amenée (3) et on façonne au préalable la feuille de verre (G) chauffée avec ledit moyen d'amenée (3), avant que la feuille de verre (G) chauffée ne soit pressée par ledit dispositif de pressage (1).
     
    4. Procédé selon la revendication 3, dans lequel ledit ensemble de moules périphériques (9a à 9d) comprend un couple d'organes formant moules de côtés avant et arrière (9a, 9b), servant à serrer les parties bord périphérique avant et arrière de la feuille de verre (G) entre eux et ledit moule annulaire (11), lesdits organes formant moules de côtés avant et arrière (9a à 9d) étant espacés entre eux dans la direction dans laquelle la feuille de verre (G) chauffée est amenée audit dispositif de pressage (1) par ledit moyen d'amenée (3), et un couple d'organes formant moules de côtés gauche et droit (9c, 9d) servant à serrer entre eux des parties bord périphérique gauche et droit de la feuille de verre (G) et ledit moule annulaire (11), et dans lequel ladite étape d'abaissement dudit ensemble de moules périphériques (9a à 9d) comprend les étapes dans lesquelles on serre les parties bord périphérique avant et arrière de la feuille de verre (G) façonnée au préalable entre lesdits organe formant moule de côtés avant et arrière (9a, 9b) et ledit moule annulaire (11), et on serre ensuite les parties bord périphérique gauche et droit de la feuille de verre (G) façonnée au préalable entre lesdits organe formant moules de côtés gauche et droit (9c et 9d) et ledit moule annulaire (11).
     
    5. Procédé selon la revendication 2, dans lequel ledit ensemble de moules périphériques (9) comprend un moule annulaire monobloc (9') destiné à s'accoupler avec ledit moule annulaire inférieur (11).
     
    6. Système de pressage d'une feuille de verre, comprenant:
       un four de chauffage (2) servent à chauffer la feuille de verre (G) à une température proche de son point de ramollissement, et
       un dispositif de pressage (1) comprenant des premier et deuxième moules (11, 9) adaptés de façon à serrer seulement un bord périphérique de la feuille de verre (G) chauffée, sur ses côtés opposés et un troisième moule (8) adapté de façon à forcer seulement une zone centrale de la feuille de verre (G), qui est entourée par son bord périphérique serré, à faire saillie au-delà dudit bord périphérique, de manière que la zone centrale de la feuille de verre (G) soit pressée afin de donner une forme incurvée,
       caractérisé en ce que lesdits premier et deuxième moules (11, 9) comprennent des surfaces de façonnage convexe et concave, incurvées de façon pratiquement complémentaire, servant à presser le bord périphérique de la feuille de verre (G) de façon à donner une forme concave-convexe, et
       en ce que ledit troisième moule (8) est adapté de façon à coopérer avec le deuxième moule (11), afin de fournir une surface de façonnage commune, de manière qu'une forme concave-convexe continue de toute la feuille de verre (G) soit obtenue en pressant le troisième moule (8) sur la zone centrale de la feuille de verre (G).
     
    7. Système selon la revendication 6, dans lequel ledit premier moule (11) est un moule concave destiné à venir au contact d'au moins le bord périphérique de la feuille de verre (G), ledit deuxième moule (9) comprend un ensemble de moules (9a à 9d) déplaçable servant à serrer le bord périphérique de la feuille de verre (G) entre lui-même et ledit moule concave (11), ledit troisième moule (8) est un organe formant moule déplaçable entouré par ledit ensemble de moules (9a à 9d) déplaçable, ledit ensemble de moules (9a à 9d) déplaçable et ledit organe formant moule déplaçable (8) constituent ensemble un moule convexe (7) destiné à s'accoupler avec ledit moule concave (11), et dans lequel des moyens d'actionnement (8a, 10a à 10d) sont prévus et adaptés de façon à déplacer ledit ensemble de moules (9a à 9d) déplaçable, afin de presser le bord périphérique de la feuille de verre (G) depuis son premier côté, en vue de serrer le bord périphérique de la feuille de verre (G) entre ledit ensemble de moules (9a à 9d) déplaçable et ledit moule concave (11), et à déplacer ensuite ledit organe formant moule (8) déplaçable afin de faire saillie de la zone centrale de la feuille de verre (G) vers ledit autre côté de cette dernière.
     
    8. Système selon la revendication 7, dans lequel ledit moule concave (11) comprend un moule annulaire inférieur.
     
    9. Système selon la revendication 7, comprenant en outre un dispositif de refroidissement (6) servant à refroidir rapidement la feuille de verre (G) pressée par ledit dispositif de pressage (1), de manière à tremper la feuille de verre (G) et un mécanisme à rouleaux d'amenée (3, 4, 5) comprenant un moyen d'amenée (3) servant à amener la feuille de verre (G) dudit four de chauffage (2) audit dispositif de pressage (1), ledit moyen d'amenée comprenant des rouleaux de façonnage préalable servant à façonner au préalable la feuille de verre (G) chauffée par ledit four de chauffage (2).
     
    10. Système selon la revendication 9, dans lequel ledit ensemble de moules déplaçable comprend un couple d'organes formant moules de côtés avant et arrière (9a, 9d), servant à serrer des parties bord périphérique avant et arrière de la feuille de verre (G) entre eux et ledit moule concave (11), lesdits organe formant moules de côtés avant et arrière (9a, 9d) étant espacés entre eux dans la direction dans laquelle la feuille de verre (G) chauffée est amenée audit dispositif de pressage (1), par lesdits rouleaux de façonnage préalable (3), et un couple d'organes formant moules de côtés gauche et droit (9c, 9d) servant à serrer entre eux des parties bord périphérique gauche et droit de la feuille de verre (G) et ledit moule concave (11), après avoir serré les bords périphérique avant et arrière de la feuille de verre (G).
     
    11. Système selon la revendication 8, dans lequel ledit ensemble de moules (9) déplaçable comprend un moule annulaire (9') monobloc destiné à s'accoupler avec ledit moule annulaire (11) inférieur.
     




    Drawing