DE1111601B - Pressure equalization for mechanical seals on pressure vessels - Google Patents

Description

Pressure compensation for mechanical seals on pressure vessels The mechanical seals of agitator shafts in pressure vessels must be lubricated evenly and safely, to ensure a sufficient operating time of the pressure vessel without shutdown. It is necessary to adjust the oil pressure to the tank pressure in order to achieve a Forcing out the lubricant and thus an escape of vapors from the container to avoid.

Devices are known that balance the pressure between the container contents and reach oil automatically by having a small oil container on the one hand the gas space of the pressure vessel, on the other hand via the sump with the agitator shaft seal connected is. The tank pressure, which is caused by the Oil line propagates to the stuffing box. However, a disadvantage of this device is that the gas space of the container and Ö1 are not separated, so that despite the cooling of the Pressure vessel coming connecting pipe the possibility is given that the oil absorbs gaseous substances from the container and thus becomes unusable.

This disadvantage is avoided according to the present invention.

Stuffing boxes for high pressure or vacuum, their barrier pressure are also known is obtained from the pressure in the autoclave. By one of two connected pistons existing device with different diameters is achieved that the The barrier pressure in the stuffing box is always higher than the pressure in the autoclave.

The two connected pistons must be sealed against the cylinder wall will. However, experience has shown that such seals are never completely tight.

A filter was therefore provided between the cylinder and the autoclave, which, however, only passes on changes in pressure in the autoclave with a delay. Another The disadvantage of this device is the considerable time-varying frictional resistance between piston seals and cylinder wall, which affects the constancy of the pressure transmission can only have a detrimental effect in the stuffing box space. By filling the rooms Because of the compression of the gas, the pistons must move over the piston with gas in the event of pressure fluctuations cover long distances, whereby the device must be constructed very large. Also the possible leakage of gases from the stuffing box, which is never absolutely tight can give rise to disturbances.

It has now been found that the difficulties mentioned can be met Using oil-lubricated mechanical seals on pressure vessels with agitator shafts of the pressure in the pressure vessel avoids and the Contact of lubricating oil and container contents this safely excludes the fact that a cylindrical pressure equalization vessel is used for pressure equalization with movable, oil-resistant corrugated pipe closed on one side between the pressure vessel and oil lubrication is used, the corrugated tube on the bottom plate of the pressure equalization vessel is attached.

This corrugated pipe thus transmits the container pressure through its movement on the oil filling, but separates the oil standing above the sliding rings from the container contents, namely bubble-free and without a gas-filled cavity. The corrugated pipe divides the cylindrical Vessel in two parts. The outer one where the oil is located is above the space connected to the slip rings, the inner space is directly above the gas space Liquid level in the container in connection.

Oil losses and changes in volume caused by temperature fluctuations of the oil are compensated for by small movements of the axially movable corrugated tube. The corrugated pipe is open on the lower side and is firmly attached to the bottom of the expansion tank tied together. Its upper movable end is closed by a base in which In the middle, the pull rod of a level indicator attached to the bottom is attached that shows the current level of the corrugated pipe and thus the volume of the oil.

The corrugated pipe can be inserted in a known manner in the transverse direction Stiffen by wire rings without impairing the mobility in the longitudinal direction will. The oil pressure must generally be slightly greater than the tank pressure. this one reaches by an exerted on the corrugated pipe in the direction of the oil Force, e.g. B. by a tension spring, which is located in the oil and up one Train exercising.

The invention is described using an example.

In a stirred pressure vessel 1 is a stirrer 2, which has a Shaft 5 is driven by an electric motor 4. The engine compartment is down sealed against the container atmosphere by sliding rings 5 and 6. The inside of the consisting of stator 7 and rotor 8 electric motor is up to the upper sliding ring 5 filled with thin oil 9, -that is cooled from the outside. The motor housing is at its highest point by a rising pipe 10 with the pressure equalization vessel 11 connected. At the bottom of this pressure equalization vessel is the actual pressure transmission element, the corrugated tube 12, made of pressure-resistant rubber or Teflon attached gas-tight. The top, The freely movable end of the corrugated pipe 12 is gas-tight due to a metallic base 13 locked. This floor is down via a linkage 14 with a magnetic Level indicator 15 connected, which indicates the position of the corrugated pipe. The top side of the metal base 13 is connected to the cover of the compensation tank via a soft tension spring 16 tied together.

The spring compensates for the weight of the bellows, so that the corrugated pipe is in the rest position in the upper end position. That The pressure equalization vessel is filled with oil 9. In the upper cover of the expansion tank there is a valve 17. In the end position of the corrugated pipe are located in Pressure equalization vessel the stop segments 18. The side of the corrugated pipe facing away from the oil is via a cooler 19, in which rising vapors are liquefied, with the Gas chamber of the pressure vessel connected.

If the device for pressure compensation is to be put into operation, the stirred tank must be depressurized. The vent valve 17 is opened and the pump is pumped with the pump 20 so long oil into the interior of the motor and the pressure equalization vessel, until it comes out of the vent valve 17. The vent valve will now closed and further oil is pumped in until the bellows 12 is out of its upper end position has moved to a middle position. The respective position of the corrugated pipe is measured with the aid of the level indicator 15.

The agitator can now be switched on and the stirred tank under pressure operate. Every pressure fluctuation in the stirred tank is immediately transferred Cooler 19 and corrugated tube 12 on the oil filling of the engine, so that the sliding rings 5 and 6 are always pressed against each other with the same force. Because of the little extra The force that the spring 16 exerts on the corrugated pipe is given to the oil in relation to the boiler a slight overpressure, so that never gas from the boiler through the slip rings 5 and 6 can get into the engine compartment 4, but at most if the Sliding rings oil in the boiler.

For safety reasons, the level indicator 15 switches in the event of a sudden Oil losses shortly before reaching the upper end position of the corrugated pipe the electric motor away. During repairs and oil changes, the valves 21 and 22 are used to drain the Oil from engine and pressure equalization vessel.

The pressure equalization described allows, for example, high-speed stirring units for pressure vessels to operate without using the lubricating oil for the sliding rings comes into contact with the boiler atmosphere.

The main advantage of the arrangement lies in the instantaneous transmission of pressure fluctuations on the oil, which is done in a simple mechanical way without interposition an automatic control is achieved. This protects the sliding rings very much. The corrugated pipe prevents corrosive gases and vapors from entering the Oil and thus also in the sliding surfaces of the sliding rings and in those used as drives, oil-filled electric motor.

Claims (5)

PATENT CLAIMS: 1. Device for pressure compensation for oil-lubricated Mechanical seals on pressure vessels with agitator shafts using pressure in the pressure vessel, characterized by a cylindrical pressure equalization vessel with one side closed, movable, oil-resistant corrugated pipe between pressure vessel and oil lubrication, wherein the corrugated pipe is attached to the base plate of the pressure equalization vessel. 2. Apparatus according to claim 1, characterized in that as Corrugated pipe a stretchable in the longitudinal direction, closed on one side and attached to this End of free moving hose used, its open lower side on the bottom plate of the expansion tank is attached, on one side of the hose the oil and the gaseous contents of the container on the other. 3. Apparatus according to claim 1 and 2, characterized in that the corrugated pipe is closed at the top by a bottom movable with it, which with connected to a level indicator. 4. Apparatus according to claim 1 to 3, characterized in that the corrugated pipe by inserted stiffeners, z. B. metal rings, perpendicular to the direction of movement is stabilized. 5. Apparatus according to claim 1 to 4, characterized in that by means of a spring attached to the upper movable floor of the corrugated pipe Pull is exerted on the corrugated pipe, which keeps the oil at a slightly higher pressure than he prevails in the container. Considered publications: German utility model no. 1 771 567.