DE19615475A1 - Device for ventilation of a storage tank - Google Patents

Description

The invention relates to a device for ventilation of a storage tank system working with hydraulic fluid when changing the level of the fluid speed occur in the storage tank, the latter above the level of the liquid has an inlet for dried air.

Caused by fluctuations in pressure, temperature and humidity in such storage tanks condensed water, if not dried air from the atmosphere sphere would enter the storage tank via the inlet. This would have been premature Aging of the liquid, corrosion, increased wear and, if appropriate Freezing temperatures result.

Therefore, the inlet at known Ein upstream of this type of air dryer. However, these have the disadvantages high cost, limited capacity and difficult to regenerate.

The object of the invention is to dry air without using a special To provide air dryers.

This object is achieved in a device of the type mentioned at the outset by that the inlet is connected to a compressed air source via a pressure regulator.

The air entering the storage tank is dried in that the moisture activity in the production of compressed air is anyway failed. By means of pressure regulator, the compressed air is expanded to and close to atmospheric pressure Condition fed to the storage tank, in which a slight excess pressure can form. The inflow of relaxed air is based on the amount of air from the storage tank withdrawn liquid limited.

An advantageous embodiment of the device results from the fact that the pressure Air source as a branch from compressed air required outside the system generating plant is formed. This can be particularly useful if the system in one device, for example a mobile construction machine with compressed air braking device, is located in which a compressed air generation system is present anyway have to be.  

The inlet can also serve as an outlet for excess air in the storage tank serve. When liquid flows back into the storage tank, the over escaping the air in this way.

If the relaxed air coming from the compressed air source has residual moisture and / or may contain impurities, it is advantageous that between the pressure regulator and the inlet an aerosol separator is inserted. The aerosol separator can also be connected downstream of the outlet in order to be entrained from the liquid to filter out impurities.

A compact design of the device results from the fact that the pressure regulator, a compressed air inlet connection connected to the compressed air source, one as inlet and Outlet of the storage tank serving connection and an exhaust air outlet with upstream pressure relief valve in a mountable on the storage tank Unit are summarized. The device can thus be completely assembled in the Installation.

When flowing through the aerosol separator in one and / or other direction there is of course the risk that it will clog up due to contamination, which would render the facility inoperable. To avoid this, you can in the unit an additional between the pressure regulator and the connection to the Storage tank switched first check valve may be provided, in the Of Incoming air bypasses the aerosol separator, and / or an between the connection to the storage tank and another exhaust air outlet switched second non-return valve may be provided, the one flowing off in its open position Air bypasses the aerosol separator.

Another option using compressed air from a compressed air source in Such storage tanks before the formation of condensation and the resulting premature aging of the liquid, corrosion, increased wear and, if appropriate Avoiding the temperatures by using compressed air operated ejector in the storage tank through its outlet to a negative pressure  generate, whereby air is sucked out of the storage tank, and connected in parallel for this purpose the inlet of the storage tank via a pressure regulator from the compressed air source ventilate. The negative pressure in the storage tank lowers the water vapor partial pressure and thus outgassing of the liquid.

The air sucked out of the storage tank can contain aerosols, which in a Ejector downstream aerosol separator to be excreted Exhaust air outlet connects.

The storage tank is also vented via the pressure regulator Vacuum relief valve that prevents the creation of an excessive vacuum in the Storage tank prevented.

A pressure limiter leading to the exhaust air outlet can also be connected to the storage tank supply valve can be connected directly or indirectly, if there is a sudden backflow a larger amount of liquid, the outflow of air from the storage tank enables and thus an undesirable increase in pressure in the storage tank prevented.

To simplify the assembly of this device, a connection from the Compressed air source, the pressure regulator, the vacuum relief valve, the ejector, the Aerosol separator and the pressure relief valve combined into one unit to be grasped.

In the drawing there are two exemplary embodiments of devices for ventilation Storage tanks shown, namely shows

Fig. 1 is a circuit diagram of the first embodiment,

Fig. 2 is a vertical central section of an assembly for the realization of the first embodiment,

Fig. 3 is a circuit diagram of the second embodiment.

In the circuit diagram of FIG. 1, a compressed air source 1 is followed by a pressure regulator 2 . This is followed by an aerosol separator 3 , which is connected via a line connection to an inlet 4 of a storage tank 5 . The inlet 4 serves simultaneously as the outlet of the storage tank 5 , which is connected via the line connection and the aerosol separator 3 to a pressure relief valve 6 , to which an exhaust air outlet opening 7 connects. Liquid is withdrawn from the storage tank 5 and liquid flows back into it, as indicated by arrows.

The assembly 11 shown in FIG. 2 has in a housing 8 a compressed air inlet connection 9 connected to the compressed air source 1 , which is connected via the pressure regulator 2 to a space 8 enclosing the aerosol separator 3 in the housing. The space formed within the aerosol separator 3 opens at the bottom into a connection 10 which serves as an inlet 4 to the storage tank 5 and also as an outlet from the storage tank 5 . The space enclosing the aerosol separator 3 in the housing 8 is connected to the exhaust air outlet opening 7 via the pressure relief valve 6 . Between the space enclosing the aerosol separator 3 in the housing 8 and the connection 10 , a first check valve 12 is switched GE, in the open position of which air flows in to the aerosol separator 3 . Furthermore, a second non-return valve 14 is connected between the space formed within the aerosol separator 3 and a further exhaust air outlet opening 13 , with the air flowing out bypassing the aerosol separator 3 when it is in the open position.

In the circuit diagram according to FIG. 3, a pressure regulator 22 is connected downstream of a compressed air source 21 . This is followed by an ejector 23 , which in turn is followed by an aerosol separator 24 and finally by an exhaust air outlet opening 27 . After the Druckreg ler 22 branches off a line connection which leads via an underpressure limiting valve 31 to an inlet 25 of a storage tank 26 . At this line connection between the inlet 25 and vacuum relief valve 31, a pressure relief valve 28 is connected, which leads to an exhaust outlet 29 . Finally, an outlet 30 of the storage tank 26 is connected to the ejector 23 , namely at its suction connection, via a further line connection. Liquid is withdrawn from the storage tank 26 and liquid flows back into it, as indicated by arrows.

Claims (9)

1. Device for ventilation of a storage tank of a system working with hydraulic fluid, in which changes in the level of the liquid occur in the storage tank, the latter having an inlet for dried air above the level of the liquid, characterized in that the inlet ( 4 ) over a pressure regulator ( 2 ) is connected to a compressed air source ( 1 ). 2. Device according to claim 1, characterized in that the compressed air source ( 1 ) is designed as a branch from a compressed air generation system required outside the system. 3. Device according to claim 1 or 2, characterized in that the inlet ( 4 ) additionally serves as an outlet for excess air in the storage tank ( 5 ). 4. Device according to claim 1, 2 or 3, characterized in that an aerosol separator ( 3 ) is inserted between the pressure regulator ( 2 ) and the inlet ( 4 ). 5. Device according to claim 3 and 4, characterized in that the aerosol separator ( 3 ) is also connected downstream of the outlet. 6. Device according to claims 1 to 5, characterized in that the pressure regulator ( 2 ), a to the compressed air source ( 1 ) connected compressed air inlet connection ( 9 ), as an inlet ( 4 ) and outlet of the storage tank ( 5 ) serving connection ( 10 ) and an exhaust air outlet opening ( 7 ) with an upstream pressure relief valve ( 6 ) are combined in a unit ( 11 ) which can be mounted on the storage tank ( 5 ). 7. Device according to claim 6, characterized in that in the structural unit ( 11 ) an additional between the pressure regulator ( 2 ) and the connection ( 10 ) to the supply tank ( 5 ) connected first check valve ( 12 ) is provided, when it is open Position inflowing air bypasses the aerosol separator ( 3 ). 8. Device according to claim 6, characterized in that in the structural unit ( 11 ) additionally a between the connection ( 10 ) to the storage tank ( 5 ) and a further exhaust air outlet opening ( 13 ) connected second check valve ( 14 ) is provided, when it is open - Position of outflowing air bypasses the aerosol separator ( 3 ). 9. Device according to claims 7 and 8.