Glass lined namel reactor is a commonly used reaction equipment in the chemical industry. Because it is used frequently, if we want to use this equipment proficiently, we need to have a detailed understanding of its basic structure, working principle, usage, etc. Today, the editor will give you a detailed introduction to the various components of the device, so you can take a look.

The kettle body of the glass lined enamel reactor is composed of a reaction vessel, a stirrer and transmission system, cooling device, safety device, etc.

1. The vessel and cover are composed of stainless steel, the glass lined enamel reactor body and the flange connection line. The cover is a traditional cover plate. Both are evenly distributed along the circumferential direction and are tightly connected with main bolts and nuts.

2. The main seal of the reactor is a double-line seal. The remaining sealing points are sealed by arc contact with flat surfaces, arc surfaces, and arc surfaces. The reactor relies on the high precision and smoothness of the contact surface to achieve a good sealing effect.

3. In the glass lined enamel reactor, the cylindrical silicon carbide core is installed outside the reactor, and the electric furnace wire passes through the furnace core. The bottom of the furnace passes through the lower part of the furnace shell and is connected to the controller through terminal posts and rubber-covered cables.

4. The enamel reaction kettle cover is equipped with a pressure gauge, bursting membrane safety device, vapor-liquid phase valve, temperature sensor, etc., so that people can understand the reaction situation in the kettle at any time, adjust the proportion of the medium in the kettle, and ensure operational safety.

5. The coupling is mainly composed of a pair of inner and outer magnetic rings with strong magnetic force and a pressure bearing sleeve. The stirrer of the glass lined enamel reactor is driven by a servo motor through a coupling. The speed of the servo motor is controlled, and the purpose of controlling the stirring speed can be achieved.

6. The upper part of the sleeve is equipped with a speed measuring coil. When the stirrer is combined with the inner magnetic ring, the induction coil generates an induced electromotive force. The electrical potential corresponds to the stirring speed and can be transferred to a tachometer to indicate the stirring speed.

7. The cooling water jacket is installed between the magnetic coupling and the glass lined enamel reactor. When the working temperature is high, the cooling water should be cooled, and the magnet steel is too high to be demagnetized.

8. The bearings are made of stainless steel or high-strength graphite bearings, which reduce friction loss and require long maintenance cycles.

During use, the various components of the glass lined enamel reactor complement each other, work together, and are indispensable. Therefore, we should conduct a detailed inspection of the equipment before using it to ensure that all parts of it can operate normally.