KR20110054754A - Stream condensate drain apparatus for tire curing press - Google Patents

Abstract

PURPOSE: A condensate discharge apparatus for a tire vulcanizing machine is provided to prevent temperature applied to a mold from hunting by uniformly maintaining condensate generated inside a jacket and a platen. CONSTITUTION: A condensate discharge apparatus for a tire vulcanizing machine comprises jacket and platen flow control valves(2,4), jacket and platen temperature sensors(5,6), jacket and platen drain air piston valves(7,8), and jacket and platen condensate discharging steam traps(11,14). The jacket and platen flow control valves are connected to jacket and platen chambers(1,3). The jacket and platen temperature sensors measure the temperature of the jacket and platen chambers. The jacket and platen drain air piston valves discharge condensate from the jacket and platen. The jacket and platen condensate discharging steam traps are connected to jacket and platen condensate storage tanks(10,13).

Description

Stream condensate drain apparatus for tire curing press}

The present invention is a tire vulcanizer for applying a stable temperature to the vulcanizer mold by efficiently discharging and discharging the condensate generated in the platen and jacket chamber to supply the heat source to the vulcanizer mold during the tire vulcanization process It relates to a condensate discharge device.

In the manufacturing of tires, a process of obtaining a unique tread design by a mold while inserting the green tire completed in the molding process into a tire mold and applying heat and pressure steam from inside and outside to obtain stable intrinsic properties of the tire, wherein the vulcanizer Temperature control is performed by adjusting the flow rate of the flow control valve based on the present temperature recognized by the temperature sensor on the pipe drain side.

On the other hand, in the platen and jacket chamber that heats the vulcanizer mold, heat exchange occurs continuously and the supplied pressure steam changes to condensate. If condensate is not discharged at an appropriate time, the condensate interrupts the heat exchange and thereby The temperature drop of the base mold occurs.

That is, the condensate discharge system of the conventional vulcanizer has a jacket flow control valve 102 connected to the jacket chamber 101 and a platen flow control valve 104 connected to the platen chamber 103 as shown in FIG. 2. And a temperature sensor 106 for measuring the temperature of the jacket, an air piston 107 for discharging the condensate of the jacket, and an air piston valve 108 for discharging the platen of the platen. It was.

However, in the conventional condensate discharge device of the tire vulcanizer, the flow rate control valves 102 and 104 and temperature sensors 105 and 106 are used to control the set temperature by controlling the supply flow rate of the pressure steam, and during heat exchange It is possible to maintain the set temperature only when the generated condensate is discharged at an appropriate time. However, since the condensate is discharged through the opening cycle and the opening time of the jacket and platen drain air piston valves 107 and 108, the temperature of the condenser mold is lowered. There was a problem that the new pressure steam is released or the energy efficiency is lowered.

In addition, when the opening period and the opening time of the drain valves are set incorrectly, when the live pressure steam is discharged together with the discharge of the condensate, not only the energy efficiency of the vulcanizer is reduced, but also the jacket chamber 101 and the platen chamber 103 of the mold. The pressure of the steam vapor fluctuated and had the disadvantage that the hunting of the temperature supplied to the mold occurs.

Accordingly, the present invention has been in view of the above-described conventional problems, and efficiently dissociates and discharges the condensate generated in the platen and jacket chamber that supplies the heat source to the vulcanizer mold to maintain a stable temperature in the mold and to prevent breakdown. The purpose of the present invention is to provide a condensate discharge device for a tire current collector in which energy saving and efficient current temperature control are performed according to quick judgment.

The present invention for achieving the above object is a jacket flow control valve and a platen flow control valve connected to the platen chamber, the jacket temperature sensor and a platen temperature sensor for measuring the temperature of the jacket is connected to the jacket chamber In the condensate discharge device of the tire vulcanizer comprising a platen temperature sensor for measuring, a jacket for discharging the condensate of the jacket and the platen, and a platen drain air piston valves, the jacket drain air piston valve line Condensate drainage steam traps are installed in parallel, and the jacket condensate drainage steam trap is connected to a jacket condensate storage tank with a jacket condensate temperature sensor, and the platen train air piston valve line is connected to the platen condensate drainage steam trap. This parallel installation, but the platen condensate drain trap The platen condensate storage tank is equipped with a condensate temperature sensor.

The condensate discharge device of the tire vulcanizer according to the present invention as described above separates and discharges only the condensate while keeping the condensate generated in the jacket and platen of the vulcanizer mold without internal pressure drop, thereby hunting the temperature applied to the mold. Prevents and maximizes energy efficiency, and has the function of minimizing energy waste by quickly dealing with failures such as clogging or leakage of steam traps.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration of the piping circuit of the condensate discharge device of the tire current collector according to the present invention.

The present invention provides a jacket flow rate control valve 2 connected to a jacket chamber 1 and a platen flow rate control valve 4 connected to a platen chamber 3 and a jacket temperature for measuring the temperature of the jacket chamber 1. Platen temperature sensor 6 for measuring the temperature of sensor 5 and platen chamber 3, and jacket and platen drain air piston valves 7 and 8 for discharging the condensate of the jacket and platen respectively. In the condensate discharge device of the tire vulcanizer comprising a jacket, the jacket condensate discharge steam trap connected to the jacket condensate storage tank (10) equipped with a jacket condensate temperature sensor 9 in the jacket drain air piston valve (7) line (11) in parallel and the platen drain air piston valve (8) line is connected to a platen condensate storage tank (13) having a platen condensate temperature sensor (12) connected to the platen condensate discharge steam trap (14). Parallelism It is made of a structure.

That is, in the present invention, when the jacket and platen condensate discharge steam traps 11 and 14 are prevented from being discharged due to clogging, the jacket and platen condensate storage tanks respectively located at the front end of the steam traps 11 and 14 ( 10 and 13 temporarily store condensate inside the jacket and platen chambers 1 and 3.

Since the normal condensate temperature is always lower than the flow temperature introduced through the jacket and platen flow control valves 2 and 4, the condensate reaches a certain level due to the blockage of the steam traps 11 and 14. The temperature of the jacket and platen condensate temperature sensor 9, 12, which senses the inside of the tanks 10, 13, is lowered, and this temperature drop is signaled by a known PLC system that is in charge of controlling the vulcanizer mold. Therefore, the air piston valves 7 and 8 for the jacket and the platen drain are automatically opened at a predetermined cycle and time to discharge the condensed water inside the jacket and the platen.

In addition, when the temperature inside the jacket and the platen condensate storage tanks 10 and 13 is detected by the condensate temperature sensors 9 and 12, the temperature drop is sensed by the steam traps 11 and 14. ) Will generate a signal to indicate the failure so that the operator can take immediate action.

On the other hand, if the flow rate of the jacket and the platen chamber (1, 3) is continuously discharged due to the failure of the steam trap (11, 14) does not cause problems due to condensate pooling, etc. As the flow rate such as high pressure steam through 4) is continuously increased, the output of these jacket and platen flow control valves 2 and 4 on the supply side is increased.

At this time, since the PLC of the vulcanizer senses the output of these valves in general, when the output rises abruptly and continuously, a signal indicating the failure of the steam traps 11 and 14 can be generated so that the maintenance power supply can immediately take action.

1 is a piping circuit diagram showing the piping configuration of the condensate discharge device of the tire current collector according to the present invention,

2 is a condensed water discharge device of a conventional tire vulcanizer and is a piping circuit diagram corresponding to FIG. 1.

Explanation of symbols on the main parts of the drawing

1: jacket chamber,

2: jacket flow control valve,

3: Platen chamber,

4: platen flow control valve,

5: jacket temperature sensor,

6: platen temperature sensor,

7: jacket condensate temperature sensor,

8: platen drain air piston valve,

9: jacket condensate temperature sensor,

10: jacket condensate storage tank,

11: Steam trap for jacket condensate discharge,

12 platen condensate temperature sensor,

13: platen condensate storage tank,

14: Steam trap for platen condensate discharge.

Claims (1)

A jacket flow control valve 2 connected to the jacket chamber 1 and a platen flow control valve 4 connected to the platen chamber 3 and a jacket temperature sensor for measuring the temperature of the jacket chamber 1 5) and a platen temperature sensor 6 for measuring the temperature of the platen chamber 3, and a jacket and platen drain air piston valves 7 and 8 for discharging the condensate of the jacket and the platen, respectively. In the condensate discharge device of the tire vulcanizer, The jacket drain air piston valve (7) line is installed in parallel with the jacket condensate discharge steam trap (11) connected to the jacket condensate storage tank (10) having a jacket condensate temperature sensor (9), the platen drain air piston In the valve 8 line, the platen condensate storage tank 13 having the platen condensate storage tank 13 having the platen condensate storage tank 13 is connected in parallel with a steam trap 14 for discharging the tire. Condensate drain.

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