CS217534B1 - Mechanism for adjusting the position of the upper part of the carpet vulcanizer press - Google Patents

Abstract

The purpose of the invention is to provide an easily operable mechanism for adjusting the position of the block, ensuring a parallel position of the block with a suitable capture of the force action. The stated purpose is achieved by rotatably mounting a gear ring 9 on the surface of the upper chamber 1, wherein the ring 9 engages, for example, with four pinions 5 rotatably connected to the nuts 3 of the adjusting screws 12 serving to secure the upper part of the block 10.

Description

BACKGROUND OF THE INVENTION The present invention relates to a mechanism for adjusting the position of the upper mold block of a car tire vulcanizing press consisting of adjusting screws securing the upper mold block in an upper chamber.

The purpose of the invention is to provide a mechanism for adjusting the position of the upper part of the block so as to allow easy adjustment of the position of the upper part of the block while maintaining the parallel position of the bearing surface of the upper part of the block and the supporting surfaces of the upper chamber. The mechanism shall allow a continuous positioning throughout the range and the absorption of the force of the pressurized media during vulcanization as far as possible from the axis of the upper chamber, taking into account the optimum stress distribution of the upper chamber closed by the bayonet closure.

Mechanisms for adjusting the position of the upper part of the curing press of car tires are already known which use a pair of coaxial screws located in the axis of the upper chamber. The mechanism consists of an internal bolt connected firmly to the upper chamber on which the internal bolt is connected with its internal thread to the gear. The central screw is provided with an opposite pitch thread on the outer surface on which the clamping plate secured against rotation in the upper chamber is mounted. The clamping plate is provided with holes for fastening the upper part of the block. A pinion engaging the gear teeth is rotatably mounted and sealed in the upper chamber.

Another solution uses a set of pads of graduated thickness to adjust the position of the top of the block. A block, complemented, for example, by four sets of washers of constant height, is clamped to the support plate of the upper chamber by means of screws.

Another solution uses a plurality of support extensions adapted to secure the block and provided with protrusions on a portion of the outer surface corresponding to the notches in the upper chamber. The projections of the extensions and slots in the upper chamber are designed in such a way that by turning the extensions it is possible to move them axially in the holes of the upper chamber to the required position and by turning them back in the selected position axially.

Solutions are also known using a plurality of set screws adapted to secure the upper part of the block and housed in nuts firmly connected to the upper chamber.

A disadvantage of such mechanisms is in the first described solution the unsuitable force load of the upper chamber. The force from the pressure media acts in the axis of the upper chamber. Another disadvantage is the high weight of the mechanism and the demands on both production and maintenance. Maintenance is also complicated by the fact that the gearing is housed in a hot and humid environment inside the vulcanization chamber.

The disadvantage of the solution using a set of washers is the complicated handling during the replacement of the blocks and the danger of non-parallel clamping of the upper part of the block to the abutment surface of the upper chamber. Also, the storage of pads for the entire range of construction with multiple presses causes difficulties.

A disadvantage of the solution using the projections provided with protrusions is that the positioning of the blocks cannot be carried out smoothly. The smallest difference between the two positions of the blocks is given by the pitch of the projections. This difference has to be compensated for by the position of the lower part of the block, which makes it impossible to use this mechanism in presses with a fixed position of the lower part of the block. A disadvantage is also difficult handling when replacing the block.

A disadvantage of the last described solution is the difficulty of keeping the upper part of the block parallel to the abutment surface of the upper chamber.

These drawbacks are eliminated by the new design, which is characterized in that the outer surface of the upper chamber is adapted to rotatably mount the toothed rim which meshes with the teeth of the pinion housed and sealed in the extensions of the upper chamber, the pinion being rotatably connected to the adjuster nuts screws secured in the upper chamber against rotation, the nuts being rotatably mounted in the upper chamber and secured against axial movement.

The main advantage of the invention is that the force exerted by the pressure media during vulcanization is transmitted to the upper chamber at places distant from the axis of the chamber, the positioning of the upper block position is continuous and the position of the contact surface of the upper block is parallel to the upper surface of the upper chamber. Another advantage is the reduced weight of the mechanism, the placement of the gears outside the interior of the vulcanization chamber and the ease of handling when replacing the blocks.

An exemplary embodiment of the invention is shown in the figure, which is a cross-sectional view of a portion of the upper chamber of a curing press of car tires.

In the drawing, in the upper chamber J. provided with the extensions 2 are rotatably mounted nuts J axially locked with inserts 4. The nuts J are rotatably connected to the pinion 5 rotatably mounted in the extensions 2 and provided with teeth for a special key. The inner space of the upper chamber is sealed with sealing rings 6 by pressurized flanges 2 by means of screws 8. The pinion gear 5 engages in the toothing of the gear ring 2 rotatably mounted in the guide surfaces of the extensions 2. The upper part of the block 10 is fastened to the set screws 12 to the upper chamber 1 tongues 13 connected to the upper chamber 1 by screws 14 ·

The device operates so that after loosening of the screws 8 of the flanges 2 are released and pinions 5 after removing one of the flanges 2 and deploy special wrench into the claws of the pinion ^{5, the} pinion 5 starts to rotate. Rotation of the pinion gear 5 is transmitted ^{by e} j toothed rim 2 for the remaining two pinions ⁸ due to the rotation matrix J is J nuts sliding movement of the adjusting screws 12 with which the upper portion of the block 10. After setting the desired position of the upper portion of the mold 10 is closed by the inner flanges 7 upper chamber 1 · Tightening of the screws 8 secures the position of the pinions 2 and ensures the sealing of the inner space of the upper chamber 1 by means of the sealing rings 6.

Claims (1)

Mechanism for adjusting the position of the upper part of a curing press of a car tire, consisting of set screws fastening the upper part of a block in the upper chamber, characterized in that the outer surface of the upper chamber (1) is adapted to rotatably support the gear ring (9) engages in the teeth of the pinions (5) mounted and sealed in the extensions (2) of the upper chamber (1), the pinions (5) being rotatably connected to the nuts (3) of the setscrews (12) secured in the upper chamber (1) against rotation; the nuts (3) are rotatably mounted in the upper chamber (1) and secured against axial movement. 1 sheet of drawings