HEATING PRESS AND METHOD FOR VULCANIZING A VEHICLE TIRE IN SAID HEATING PRESS UNDER VACUUM

Abstract

A heating press (1) for vulcanizing a vehicle tire under a vacuum, comprising a heating press upper part (3) and a heating press lower part (6), wherein a container (2) having the mold parts (14, 16, 17, 18, 21) of a segmented vulcanizing mold and a cylindrical hood upper part (4) enclosing said container are arranged on the heating press upper part (3), wherein the hood upper part (4) is arranged fixedly on the heating press upper part (3), wherein the diameter of the hood upper part (4) is dimensioned such that said hood upper part can be pushed over the heating press lower part (6) with a small clearance and said hood upper part has a length (23) which is sufficient to form a closed hood interior space (12) with the heating press lower part (6) and heating press upper part (4) when the vulcanizing mold is still open, wherein, in the course of a first stroke (H.sub.1), the heating press upper part (3) can be moved in the axial direction (P1) in such a way that the hood upper part (4) forms a vacuum-tight hood interior space (12) with the heating press lower part (6), although the vulcanizing mold remains open in an air-permeable manner, wherein, in the course of a second stroke (H.sub.2), the heating press upper part (3) can be moved further in the axial direction (P1) in such a way that the vulcanizing mold can be completely closed under vacuum conditions in the interior space of the hood (12).

Claims

1-9. (canceled)

10. A heating press (1) for vulcanizing a vehicle tire under a vacuum, the heating press comprising: a heating press upper part (3) and a heating press lower part (6) a container (2) having mold parts (14, 16, 17, 18, 21) of a vulcanizing mold; a cylindrical hood upper part (4) enclosing the container is arranged on the heating press upper part (3); the heating press upper part (3) and the heating press lower part (6) are connected to the container (2) in such a way that, when the heating press upper part (3) is being lowered through a stroke that takes place in the axial direction (P1), the mold parts (14, 16, 17, 18, 21) of the vulcanizing mold can be closed in the radial direction (P2); the hood upper part (4) is arranged fixedly on the heating press upper part (3); a diameter of the hood upper part (4) is dimensioned such that said hood upper part can be pushed over the heating press lower part (6) with a small clearance and said hood upper part has a length (23) which is sufficient to form a closed hood interior space (12) with the heating press lower part (6) and heating press upper part (4) when the vulcanizing mold is still open, a vacuum-tight seal (5) is arranged on that surface at which the hood upper part (4), when the hood interior space (12) is closed, is pushed over the heating press lower part (6), in order to make the closed hood interior space (12) sealable in a vacuum-tight manner, wherein the seal (5) is arranged on the heating press lower part (6), wherein, in the course of a first stroke (H1), the heating press upper part (3) can be moved in the axial direction (P1) in such a way that the hood upper part (4) forms a vacuum-tight hood interior space (12) with the heating press lower part (6), although the vulcanizing mold remains open in an air-permeable manner, wherein a pump (10) and a vacuum tank (11), by means of which a vacuum can be generated in the interior space of the hood (12) after the first stroke (H1), are provided, wherein the vacuum tank (11) and the pump (10) are connected to the interior space (12) of the hood (4), and wherein the vacuum tank (11) and the pump (10) are connected to one another, and wherein, in the course of a second stroke (H2), the heating press upper part (3) can be moved further in the axial direction (P1) in such a way that the vulcanizing mold can be completely closed under vacuum conditions in the interior space of the hood (12).

11. The heating press of claim 10, wherein the seals are ring seals (5, 9) with circular, polygonal and/or flat cross sections.

12. The heating press of claim 11, wherein the ring seal (5, 9) is arranged in a circular-ring-shaped groove, wherein the diameter of the ring seal (5, 9) is greater than the depth of the groove.

13. The heating press of claim 10, wherein the ring seal (5, 9) comprises solid material.

14. The heating press of claim 10, wherein the ring seal (5, 9) is a hose of variable diameter.

15. The heating press of claim 10, wherein the ring seal (5, 9) is a differentially inflated double ring seal.

16. The heating press of claim 10, wherein the vacuum tank (11) has a volume that is approximately 5 to 10 times greater than the volume of the closed hood (4).

17. A method for vulcanizing a pneumatic vehicle tire under a vacuum in the method comprising: a) loading an opened heating press (1) by placing a green tire for vulcanization into a container (2), b) moving a heating press upper part (4) through a first stroke (H1) in the axial direction (P1) toward a heating press lower part (6), until a closed hood interior space (12) composed of a hood upper part, the heating press upper part and the heating press lower part (6) is obtained, while the vulcanizing mold remains open, c) only if a ring seal (5, 9) is a hose of variable diameter: inflating a circular-ring-shaped hose seal in order to seal off the hood interior space (12) in a vacuum-tight manner, d) opening a connection between a vacuum tank (11) and the hood interior space (12) in order to generate a partial vacuum, by way of pressure equalization between the vacuum tank (11) and the hood interior space (12), in the hood interior space (12) that has been closed in a vacuum-tight manner, e) when the partial vacuum is obtained in the hood interior space (12): closing the connection between the vacuum tank (11) and the hood interior space (12), opening the connection between the hood interior space (12) and the pump (10), and pumping the remaining air out of the hood interior space (12) in order to generate the vacuum, f) moving the heating press upper part (3) through a second stroke (H2), in the course of which the container (2) is moved in such a way that the vulcanizing mold is completely closed, and subsequently closing the connection between the hood interior space (12) and the pump (10). g) vulcanizing the green tire and opening the connection between the pump (10) and the vacuum tank (11) and generating a vacuum in the vacuum tank (11), wherein the connection of the pump (10) to the hood interior space (12) and the connection of the vacuum tank (11) to the hood interior space (12) are each closed, h) opening the heating press (1) by moving the heating press upper part (3) and removing the fully vulcanized tire.

18. The method of claim 17, comprising repeating the method for a plurality of green tires.

19. The method of claim 17, further comprising arranging a further valve in the hood and opening the further valve to deplete the vacuum prior to opening the heating press.

Description

[0033] An exemplary embodiment of a heating press and the method for vacuum vulcanization of a pneumatic vehicle tire, together with further advantages, will be described on the basis of the following two schematic figures. In the figures:

[0034] FIG. 1 shows a heating press according to the invention with a container in an open state;

[0035] FIG. 2 shows the heating press of FIG. 1 in the closed state.

[0036] FIG. 1 shows a heating press 1 according to the invention with a container 2 in an open state. The green tire can be placed into the heating press 1.

[0037] The heating press 1 comprises a heating press lower part 6 and a heating press upper part 3 with a cylindrical hood upper part 4 and has the corresponding mechanisms for positioning the tire for vulcanization, for actuating the constituent parts of the vulcanizing mold, for introducing the heating media, and for removing the fully vulcanized tire. In the interior space of the hood upper part 4, a container 2 is arranged on the heating press upper part 3 in such a way that, when the heating press upper part 3 is being moved in the axial direction P1, the mold parts of the vulcanizing mold that are arranged in the container 2 can be moved in the radial direction P2.

[0038] What is provided is a central mechanism 8, to which a heating bellows (not illustrated) that can be placed into the green tire (not illustrated) is fastened. Furthermore, nozzles (not illustrated) are arranged on the central mechanism 8, through which nozzles a heating medium can be introduced into the heating bellows (not illustrated).

[0039] The cylindrical hood upper part 4 is mounted fixedly on the heating press upper part 3 and has a length 23 which is sufficient to form a closed hood interior space 12 with the heating press lower part 6 and heating press upper part 3 when the vulcanizing mold is still open, that is to say when the heating press upper part 3 has not been moved completely onto the heating press lower part 6.

[0040] The hood upper part 4 is airtight, or vacuum-tight, and in the closed state forms a vacuum-tight hood interior space 12. In order to seal the hood upper part 4 in a vacuum-tight manner in the closed state, a ring seal 5 is arranged on the heating press lower part 6 where the hood upper part 4 is moved over the heating press lower part 6 in the closed state of the hood. Further ring seals 9 seal off at least the central mechanism 8 with respect to the hood interior space 12 in a vacuum-tight manner.

[0041] The container 2 is a conventional container 2 that is already known in the prior art.

[0042] The container 2 contains the segmented vulcanizing mold with a lower heating plate 13, a lower sidewall shell 14, an upper heating plate 15, an upper sidewall shell 16, a lower bead ring 17 and an upper bead ring 18. Those constituent parts of the vulcanizing mold that are moved in a vertical (=axial) direction (arrow P1) for the purposes of opening and closing include the segment ring 19, composed of seven to nine segment shoes 20, and the profile/mold segments 21 fastened thereto and also the upper sidewall shell 16 with the upper bead ring 18. The segment shoes 20 are moved apart radially, in the direction of the arrow P2, to close and open the vulcanizing mold. On the upper heating plate 15, there is arranged a closing ring 22 which has a beveled inner surface which interacts with beveled outer surfaces of the segment shoes 20 of the segment ring 19 such that, during the closing of the vulcanizing mold, the segment shoes 20 are moved together in a radial direction to form the closed segment ring 19. In the lower heating plate 13, the upper heating plate 15 and in the closing ring 22, there are incorporated heating chambers into which at least one heating medium, in particular saturated steam (water vapor), is introduced for the vulcanization of the tire. In this way, the green tire (not illustrated) is heated from the outside via the segment shoes 20, the sidewall shells 14, 16 and the bead rings 17, 18, such that this heating is commonly referred to as external heating.

[0043] A conventional heating bellows (not illustrated) is provided in a known manner and is filled with at least one pressurized heating medium in order to center the green tire in the mold from the inside, wherein the heating bellows is brought into a toroidal shape conforming to a tire. Since the green tire is heated by means of the heating bellows from the inside, this type of heating is referred to as internal heating.

[0044] In the course of a first stroke H.sub.1not illustrated in the figuresthe hood upper part 3 can be moved in the axial direction P1 in such a way that the lower region 7 of the hood upper part 4 moves over the heating press lower part 6 and forms a vacuum-tight hood interior space 12 therewith, although the vulcanizing mold remains open in an air-permeable manner.

[0045] A pump 10 and a vacuum tank 11, by means of which a vacuum can be generated in the interior space of the hood 12 after the first stroke H.sub.1, are provided. The vacuum tank 11 and the pump 10 are connected to the interior space 12 of the hood and the vacuum tank 11 and the pump 10 are connected to one another. By virtue of a vacuum being provided in the hood interior space (=interior space of the hood) 12, in particular during the molding and the vulcanization of the tire, conventional ventilation valves arranged in the mold face of the vulcanizing mold are omitted entirely.

[0046] FIG. 2 shows the heating press 1 of FIG. 1 in the closed state, which is obtained after a second stroke Hz, in the course of which the heating press upper part 3 can be moved further in the axial direction P1 such that the vulcanizing mold can be completely closed under vacuum conditions in the interior space of the hood 12. The connection between the vacuum tank 11 and the hood interior space 12 is closed. Then, the connection between the hood interior space 12 and the pump 10 is closed. The green tire is vulcanized.

[0047] In the case of a passenger motor vehicle tire, the vulcanization thereof takes approximately 15 minutes. During this time, the connection between pump 10 and vacuum tank 11 is opened in order to generate a vacuum in the vacuum tank 11, wherein the connection of the pump 10 to the hood and the connection of the vacuum tank 11 to the hood are each closed. After the vulcanization of the tire is complete, the volume of the hood interior space 12 is aerated via a valve (not illustrated), and the heating press 1 is opened in order to unload the fully vulcanized tire from the container 2 having the vulcanizing mold. For this purpose, the heating press upper part 3 with the container 2 moves upward, and the profile segments 21 simultaneously move outward in the radial direction P2. The tire is released.

LIST OF REFERENCE SIGNS

Part of the Description

[0048] 1 Heating press [0049] 2 Container [0050] 3 Heating press upper part [0051] 4 Hood upper part [0052] 5 Ring seal [0053] 6 Heating press lower part [0054] 7 Lower region of the hood upper part [0055] 8 Central mechanism [0056] 9 Ring seal [0057] 10 Pump [0058] 11 Vacuum tank [0059] 12 Interior space of the hood=hood interior space [0060] 13 Lower heating plate [0061] 14 Lower sidewall shell [0062] 15 Upper heating plate [0063] 16 Upper sidewall shell [0064] 17 Lower bead ring [0065] 18 Upper bead ring [0066] 19 Segment ring [0067] 20 Segment shoe [0068] 21 Profile segment/mold segment [0069] 22 Closing ring [0070] 23 Length of the hood upper part [0071] P1 Axial direction [0072] P2 Radial direction [0073] H.sub.1 First stroke [0074] H.sub.2 Second stroke