CS268479B1 - The membrane control mechanism of the vulcanizing press is self-treading - Google Patents

Abstract

The advantage is that the membrane is introduced into the blank by gradual rolling from foot to foot, taking place when the blank is already centered on both foot rings of the block in a stationary and unheated well. The essence of the solution is a piston fitted with a seal and connected to a control cylinder, the fixed piston rod passing through the piston is sealed against it by a sealing ring.

Description

The present invention relates to a diaphragm control mechanism for a car tire vulcanizing press consisting of a well adapted to clamp a wide edge of the diaphragm and a piston adapted to clamp a narrower edge of the diaphragm.

The object of the invention is to provide a membrane control mechanism so as to ensure a gradual and precise rolling of the membrane onto the inner surface of a blank centered on the bead rings of the block while reducing the heated space, thus minimizing heat loss.

Mechanisms for controlling the membrane of a car tire vulcanizing press are already known, which ensure the gradual rolling of the membrane onto the inner surface of the semi-finished product. In the solutions used so far, the blanks are held by the upper foot during the introduction of the membrane by the loading device, which releases the foot after the introduction of the membrane and is held only by the formed membrane until the foot ring approaches. The result is inaccurate insertion of the bead onto the bead ring, which can cause a tire defect. In addition, the solution using a stationary well uses an all-rubber membrane, which facilitates its assembly, but means a significant increase in heat loss due to heating not only the tire space but also the well. In addition, the unbuttoned upper edge of the membrane has a negative effect on the placement accuracy of the blank.

In addition, mechanisms are known with a movable well and with a membrane clamped at both edges on the movable part, which also cannot ensure the gradual rolling of the membrane into a blank centered on the bead rings of the block.

The new construction according to the invention eliminates these disadvantages. Its essence lies in the fact that inside the well there is a slidably mounted and sealed piston connected to the control cylinder, the fixed piston rod of which passing through the piston is sealed against it by a sealing ring.

The main advantage of the invention is the introduction of the membrane by successive rolling on the inner surface of the blank from the bead to the bead at a time when the blank is centered on the bead rings of the block, which eliminates the possibility of inaccurate pressing of the bead. Sealing the piston against the inner surface of the well significantly reduces the heated space and thus the heat loss of the press.

An exemplary embodiment of the invention is shown in the accompanying figures, in which Fig. 1 shows a section of the vulcanization chamber of a blank in the position where molding is started, Fig. 2 shows a section of a vulcanization chamber with a formed blank and Fig. 3

In the figures, a lower part of the chamber 2 is mounted on the press stand 1, adapted to clamp the lower heating plate J and the lower block 6, in which the larger edge of the membrane 6 is clamped by means of a well 2. The narrower edge of the diaphragm 6 is fastened by means of a nut 8 to a piston 8 sealed by a seal% in the well £ and connected to an actuating cylinder 10. whose piston rod 11 is mounted on a stand 1. The piston rod 11 is sealed in the piston 8 by a sealing ring 12 and connected to the piston. 13 with a seal 14. In the upper part of the chamber 15 fixed on the crosspiece 16. a spacer 17 with an upper heating plate 18 and an upper block 19 is clamped, the foot ring 20 of which is fixed on a carrier 21 slidably mounted in the crosspiece 16. The tube 22 is in the carrier 21 is slidably mounted and provided with a head 23 and a radial guide of the jaws 24 connected by pins 25 to a housing 26 which is rotatably mounted on the tube 22. By rotating the housing 26, the extension of the jaws 24 used to clamp the blank 27 is controlled.

The diaphragm control mechanism works as follows. After sieving the upper part of the chamber with the blank 27 clamped on the foot ring 20 of the upper block 19 by means of the jaws 24 to the position where the lower foot of the blank 27 slides onto the foot ring of the lower block 4 (Fig. 1), the channels molding steam is admitted into the upper edge of the well 5. At the same time, by feeding the pressure medium above the piston 13, the actuating cylinder 10 connected to the piston 8 is extended. the formation is shown in Fig.2. At this stage, the position of the blanks 27 relative to the block is secured by a formed membrane 6 and therefore the clamping jaws 24 are clamped by turning the sleeve 26 and with a short stroke of the tube 22 the jaws 24 are inserted into the bead ring cavity 20 and the cavity is closed by the head 23. the upper part of the chamber 15 to the lower position and by vulcanizing media into the membrane the vulcanization is started (Fig. 3). causes the diaphragm 6 to be pulled toward the inside of the tire. Extending and opening the jaws 24 and then raising the top of the chamber 15 will cause the vulcanized tire to be removed from the press. Clamping the blank 27 repeats the cycle.

Claims (1)

OBJECT OF THE INVENTION A diaphragm vulcanization press diaphragm actuating mechanism consisting of a well adapted to clamp the wide edge of the diaphragm and a piston adapted to clamp the narrower edge of the diaphragm, characterized in that a piston (8) slidably mounted inside the well (5) is provided with a seal (9). an actuating cylinder (10), the stationary piston rod (11) of which passing through the piston (8) is sealed to it by a sealing ring (12).