SU1451034A1 - Apparatus for vulcanization of casings of pneumatic tyres - Google Patents

Abstract

The invention relates to the manufacture of pneumatic tires and can be used in tire and tire repair plants. The purpose of the invention is to reduce the energy consumption of volcano. .. tion pokrysh1ek. For this, the steam hose is made with double walls 6 and 7. The latter form an additional heating cavity 8. The latter is connected to the internal heating cavity through channels for supplying and discharging the heat carrier. The proposed steam chamber prevents condensate from heating the mold surfaces from the outer colder wall of the steam jacket, 3 sludge.

Description

The invention relates to the production of pneumatic tires, and can be used in tire and tire repair plants. 5

The aim of the invention is to reduce the energy consumption for vulcanization of tires by reducing the film of condensate on the heated surfaces of the mold. 10

Figure 1 shows a device for vulcanizing tires of pneumatic tires, a section; figure 2 - times, cut aa in figure 1 ;. in Fig.Z - section bB in Fig.2. fifteen

A device for vulcanizing tires of pneumatic tires comprises a detachable steam chamber with an upper 1 and lower 2 parts locked by a bayonet lock 3, a mold installed in a 20 steam chamber, consisting of an upper 4 and lower 5 half-molds, on each of which a steam shirt is made, made with double walls 6 and 7. The double walls 25 6 and 7 of the steam jacket form between themselves and the mold 4 or 5 an additional, external 8 and internal 9 heating cavity. The external heating cavity is connected by supplying 10 and outgoing 3Q pipelines 11, respectively, to the sources of supply and removal of the heat carrier, and the internal I heating cavity 9 is connected to the external cavity 8 channels for supplying 12 and removal of the heat carrier 13. For molding. ” and tire pressure testing, the device comprises an elastic diaphragm 14 fixed in the diaphragm assembly 15. To reduce heat loss to the environment, an air cavity 16 is left between the wall 7 of the steam jacket.

A device for vulcanizing tires of pneumatic tires works as follows.

The vulcanizable blank of the tire 17 is installed in the lower half-mold 5, the diaphragm 14 is filled in and molding is formed by closing the half-molds 4 and 5. After that, the steam chamber is locked with a bayonet lock 3 and the vulcanization is started, for which, in accordance with the vulcanization mode, coolants are fed into the cavity of the diaphragm 14. .

The heating of the half-molds 4 and 5 is carried out by supplying a coolant, such as steam, through a supply pipe 10 and a channel 12 to the external 8 and internal 9 heating cavity. Condensate formed on the wall 7 of the steam jacket and the outer surface of the half-molds 4 and 5 is removed from the device through the channel 13 and the discharge pipe 11. Moreover, due to the practical equality of the temperature and pressure of the coolant in the external 8 and internal 9 heating cavities on the wall 6 of the steam jacket, the process of condensation minimized. The condensate formed on the inner surface of the wall 7 is removed, bypassing the heated surface of the mold 4. Therefore, the thickness of the condensate film on the surface of the mold is minimized and is determined only by the difference in the temperature of the steam and the mold and is not affected by the ambient temperature, which means that the beneficial heat transfer from steam to the mold is optimal. Heat losses to the environment due to the heat-insulating effect of the external heating 8 and air 16 cavities are significantly reduced. At the end of the vulcanization cycle, the coolant from the cavities 8 and 9 and the diaphragm 14 is removed, the bayonet lock 3 is unlocked, the mold is opened and the finished tire 17 is removed. A new tire blank 17 is laid, and then the vulcanization cycle is repeated.

The design of the double-walled steam jacket prevents condensation from heating the heated mold surfaces from the outer cooler-wall of the steam jacket. Thermal energy entering the internal heating cavity is spent only on heating the mold, which reduces the heat carrier consumption for tire vulcanization.

Claims (1)

Claim A device for vulcanizing tires of pneumatic tires, comprising a detachable steam chamber with a mold installed in it, consisting of two half-molds, on each of which a steam jacket is mounted, forming an air cavity with the steam chamber, and with the half-mold, an external heating cavity connected by pipelines to sources of supply and removal of coolant, characterized in that, in order to reduce energy consumption for vulcanization of tires, the steam jacket is made with double walls, forming an additional internal the lower heating cavity, connected by means of channels for the removal of the coolant by the heating cavity. for supply and with internal Fig.z