DE3919438A1 - Auxiliary low pressure air regenerating air dryer - is supplied from emptying consumer unit to intermediate balancing container - Google Patents

Abstract

The dryer for compressed air delivered from a source to a consumer unit is periodically regenerated by air at considerably lower pressure than that of air from the emptying consumer unit. This pressure redn. is normally effected by a throttle in the line connecting consumer unit to dryer during emptying of the former. Between consumer unit and throttle is now disposed a balancing container to receive discharging air from the consumer unit during emptying and to deliver air via the throttle (24) to the air dryer. The air line from consumer unit to balancing container has a greater cross section than the throttle. Excess air from the balancing container is discharged to atmos. under the-control of a pneumatic valve actuated by container pressure. USE - Used for vehicles with adjustable air springing. The control and operating procedure during regeneration are now made faster, and largely independent of throttle condition.

Description

The invention relates to a pressure medium actuable Device according to the preamble of the patent saying 1.

Such a device is e.g. with air-sprung Vehicles with a load-dependent level control used. The amount of air in consumers, formed from the bellows of the air suspension are, depending on the vehicle load regulated that a predetermined distance the vehicle cell from the vehicle axis is always the same.

A facility of the type mentioned is through the DE-OS 35 42 975 previously known. This well-known one direction essentially consists of the following parts:

A path measuring device measures that by loading or Ent load of the vehicle changing distance of Vehicle cell from the vehicle axle. The measurement data are by means of an electronic evaluation circuit compared with a target value (normal level). At Deviation becomes the normal level by filling up or The air springs are restored. To the Refilling causes the electronics to switch on a pressure medium source to get air into the air springs promote until the electronics that the distance measurement recognized normal level.  

The air supply is then turned off and that Air spring valve closed. The emptying happens in such a way that electronics are one to the atmosphere directional valve opening, switches to passage. The Air springs are then so long in the atmosphere emptied until the electronics on detection of the normal levels shut off both valves.

An air integrated into the known device dryer is arranged so that when filling in in one direction and when emptying in the opposite set direction is flowed through. It is at Empty the whole and collected in the air dryer melt moisture over the behind the outlet of the Air dryer arranged switchable vent valve derived into the atmosphere.

Due to the nature of the air dryer the dehumidification takes place in the so-called regeneration only operate with relaxed air, i.e. with one Pressure that is much lower than that at Drain air discharged from the air springs. The The air is released using a throttle place that in the line connection from the air to the air dryer while emptying the Air springs is effective.

For the regeneration operation of the air dryer required throttling of the air springs outflowing air flow has the disadvantage that the level that occurs when the vehicle cell is lowered control process, the throttled passage cross section accordingly, compared to filling up, delayed runs.  

The facility mentioned above is also there usable where, instead of those mentioned above Air suspension bellows that consumers out Compressed air actuated working cylinders exist. Here the stroke of the working cylinder by filling and Emptying its pressure medium chamber generated. Here too is the when emptying the pressure medium chamber over the Air dryer to remove air in the above described throttled. However, this has the Disadvantage that the operation of the working cylinder ders by emptying the pressure medium chamber is brought about, only correspondingly delayed ver can run.

The invention is therefore based on the object Setup of the type mentioned above to verbes Ensure that this is done when the consumer is emptied control or actuation process essentially unaffected by that assigned to the air dryer Throttle point and with an increased control or Actuation speed can take place.

This object is achieved by the in claim 1 specified invention solved. Further training and are advantageous embodiments of the invention specified in the subclaims.

For level control devices with changeable target level, the invention has the advantage that the vehicle to changing ground level faster while driving Ratios can be adjusted if this is an Absen require the vehicle cell. When loading and unloading operations can also be quickly adapted to this a store level, e.g. to a loading ramp.  

The invention is based on an embodiment, that is shown in the drawing, explained in more detail.

Show it:

Fig. 1 is a fluid-pressure actuable means, the consumer is formed of an air spring,

Fig. 2 and Fig. 3 variants of the devices according to Fig. 1,

Fig. 4 is a pressure medium operated device, the consumer is formed from a working cylinder.

The facility is designed to be quick Removing air from the consumer, despite use an air dryer.

According to Fig. 1, a pressure medium source ( 1 ) is provided, which via an electrically actuated directional valve ( 2 ), a pressure line ( 3 ), an air dryer ( 4 ), a pressure line ( 5 ), a check valve opening towards the air spring ( 6 ) ( 7 ) and a pressure line ( 8 ) can be connected to the air spring ( 6 ). The directional valve ( 2 ) has an electrical control input ( 9 ) which is connected via an electrical line ( 10 ) to an electrical control output ( 11 ) of an electronic control device ( 12 ).

The air dryer ( 4 ) can be connected to the atmosphere via an electrically actuated valve device ( 13 ) with an outlet ( 14 ). The valve device ( 13 ) has an electrical control input ( 15 ) which is connected via an electrical line ( 16 ) to an electrical control output ( 17 ) with the electronic control device ( 12 ).

The pressure line ( 8 ) is connected to the pressure line ( 5 ) via a pressure line ( 18 ), a valve device ( 19 ), a pressure line ( 20 ) serving as a compensation line, an expansion tank ( 21 ), a pressure line ( 22 ) the pressure line ( 5 ) opening check valve ( 23 ) and a throttle ( 24 ) connected. The valve device ( 19 ) has an electrical control input ( 25 ) which is connected via an electrical line ( 26 ) to an electrical control output ( 27 ) of the electronic control device ( 12 ).

The expansion tank ( 21 ) serves to receive air from the deflated air spring ( 6 ). For this purpose, the air spring ( 6 ) can be connected to an inlet ( 28 ) of the expansion tank ( 21 ) via the valve device ( 19 ) and the pressure lines ( 8 ) and ( 20 ). The passage cross section of the connection ( 8 , 18 , 19 , 20 , 28 ) from the air spring ( 6 ) to the expansion tank ( 21 ) is larger than that of the throttle point ( 24 ) of the air dryer ( 4 ). The emptying of the expansion tank ( 21 ) takes place via an outlet ( 29 ) from the expansion tank ( 21 ), the pressure line ( 22 ), the check valve ( 23 ), the throttle ( 24 ), the pressure line ( 5 ) and the air dryer ( 4 ) and the passage valve device ( 13 ) to the atmosphere outlet ( 14 ) of the air dryer ( 4 ).

The electronic control device ( 12 ) can be controlled with a displacement sensor ( 30 ) with which the distance of the vehicle cell from the vehicle axis can be measured. The electronic control device ( 12 ) has a comparison circuit with which a position of the vehicle cell deviating from the predetermined target level can be measured. The deviation from the target level, the valves ( 2 , 13 , 19 ) of the level control device are brought into switch positions in which either the pressure medium source ( 1 ) with the air spring ( 6 ), or the air spring ( 6 ) with the outlet ( 14 ) Atmosphere.

In the same device components of FIG. 1, 2, 3 and 4 are provided with the same item numbers.

In contrast to FIG. 1, the ner to Lufttrock (4) leading to the pressure line (22) in Fig. 2 not connected to the container outlet (29), but to an outlet (29 ') of the compensating line (20, 41). In this line arrangement, the air flow discharged by the consumer ( 6 , 45 ) is divided up in an advantageous manner. While the predominant portion of the air flow reaches the expansion tank ( 21 ), the remaining portion, to relieve the expansion tank ( 21 ), is passed over the connection ( 29 ', 20 ; 41 ).

Fig. 3 shows the same device as Fig. 1, with the exception of the air dryer (4) to the outlet (14) valve means connected to the atmosphere (31) which is pneumatically switchable. The Ventilein device ( 31 ) has a pneumatic control input ( 32 ) which is connected via a pressure line ( 33 ) with the pressure line ( 22 ) connected to the expansion tank ( 21 ). The valve device ( 31 ) can be moved with the pressure of the expansion tank ( 21 ) into a switch position in which the air dryer ( 4 ) is connected to the outlet ( 14 ) to the atmosphere.

Fig. 4 shows in addition to the devices of FIG. 1 and Fig. 2, an outlet ( 34 ) to the atmosphere with which the expansion tank ( 21 ) via a pneumatically switchable valve device ( 35 ), via a Drucklei device ( 36 ) and one Liche throttle ( 37 ) in the pressure line ( 36 ) can be connected. The Ventileinrich device ( 35 ) has a pneumatic control input ( 38 ) which can be actuated via a pressure line ( 39 ) and an outlet ( 40 ) of the expansion tank ( 21 ) with the pressure of the expansion tank ( 21 ). The valve device ( 35 ) is movable depending on a given pressure of the expansion tank ( 21 ) in a switching position in which the expansion tank ( 21 ) is connected to the outlet ( 34 ) to the atmosphere.

The throttle ( 37 ) of the outlet ( 34 ) to the atmosphere has a much smaller passage cross section than the throttle point ( 24 ) of the air dryer ( 4 ). This is intended to ensure that when the air spring ( 6 ) is emptied, a larger amount of air can be passed through the air dryer ( 4 ) than through the outlet ( 34 ) to the atmosphere.

The mode of operation of the device according to FIG. 1 is as follows:

In one signaled by the displacement sensor (30) level deviation to the control, a filling of the air spring (6) is required, causes the elec tronic control means (12) for the duration of the filling, the valve means (12) assume a switching position in which the pressure medium source ( 1 ) via the connection ( 3 , 4 , 5 , 7 , 8 ) is connected to the air spring ( 6 ). The valve device ( 13 ) then assumes a switching position in which the connection of the air dryer ( 4 ) with the outlet ( 14 ) to the atmosphere is interrupted. With the check valve ( 23 ) it is prevented that the air flow from the pressure medium source ( 1 ) to the air spring ( 6 ) can also be branched into the expansion tank ( 21 ). When the air spring ( 6 ) is filled, the air dryer ( 4 ) is operated in drying mode, ie the moisture extracted from the air is retained in the air dryer ( 6 ) in the direction of flow from the pressure medium source ( 1 ) to the air spring ( 6 ).

In the event of a level deviation signaled by the displacement sensor ( 30 ), for the regulation of which an emptying of the air spring ( 6 ) is required, the pressure medium source ( 1 ) remains separated from the rest of the device. The valve device ( 13 ) then takes a switching position, in which the air dryer ( 4 ) is connected to the outlet ( 14 ) to the atmosphere. To empty the air spring ( 6 ), the valve device ( 19 ) takes up a switch position in which the air spring ( 6 ) is connected to the expansion tank ( 21 ) and is blocked by the check valve ( 7 ) against the air dryer ( 4 ). Over a relatively large cross-section of the line connection ( 8 , 18 , 19 , 20 , 28 ) there is a quick ventilation of the air spring ( 6 ), which advantageously has a rapid lowering of the driving cell to the desired level or to a predetermined lower desired level. The Absenkvor gear is ended by the movement of the valve device ( 19 ) in the closed position, the check valve ( 7 ) being held in the closed position by the pressure of the air spring ( 6 ).

From the expansion tank ( 21 ), the air escaping from the air spring ( 6 ) can reach the air dryer ( 4 ) via the pressure line ( 22 ), the opening check valve ( 23 ), the throttle point ( 24 ) and the pressure line ( 5 ). The air dryer ( 4 ) is now operated in regeneration mode, that is, the air released by passing the throttle point ( 24 ) transports the moisture in the air dryer ( 4 ), according to the mode of operation of such an air dryer, in countercurrent via the outlet ( 14 ) into the atmosphere.

Referring to FIG. 3 takes the air dryer (4) to the outlet (14) connecting to the atmosphere Ventileinrich device (31), driven by the pressure of the surge tank (21), the venting position for the air dryer (4). Upon reaching a predetermined residual pressure of the container ( 21 ), the Ven tileinrichtung ( 31 ) moves into the closed position, whereby the regeneration process of the air dryer ( 4 ) is ended. This residual pressure ensures that a minimum pressure in the air spring ( 6 ) is not undercut.

Assuming that the expansion tank ( 21 ) could have the maximum capacity of all connected air springs of the level control device, one would come to a tank size that would not prove to be advantageous in all cases, with regard to a limited installation space. With the device according to FIG. 3, which represents an advantageous training of the devices according to FIGS . 1 and 2, part of the air from the expansion tank ( 21 ), which would remain in the valve device ( 31 ) after it has been closed, in the atmosphere can be removed, but with the compromise that this air portion is then no longer available for the regeneration process of the air dryer ( 4 ).

Fig. 5 shows a device with a working cylinder ( 45 ) as a consumer who can perform a stroke by filling and emptying his pressure chamber ( 46 ). Such a working cylinder can serve, for example, as a tensioning cylinder or for actuating rods. It can also be used, for example, in facilities for opening and closing flaps and doors. To fill the directional control valve ( 2 ) is switched to passage, while the directional control valve ( 13 ) in the blocking position separates the air dryer ( 4 ) from the outlet ( 14 ) to the atmosphere. According to the design of the device according to FIG. 5, the directional control valves ( 2 ) and ( 13 ) can also have a pneumatic or hydraulic control instead of the electrical control shown. A double-sided check valve ( 44 ), controlled by the pressure of the pressure medium source ( 1 ), assumes a switching position in which the line sections ( 42 ) and ( 43 ) are connected to one another. The pressure medium source ( 1 ) is then connected via the connection ( 1 , 2 , 3 , 4 , 42 , 44 , 43 ) of the system with the pressure chamber ( 46 ) of the working cylinder ( 45 ).

For emptying, the double-sided check valve ( 44 ) is controlled by the pressure of the working cylinder ( 45 ), switched in such a way that the line section ( 43 ) and the line section ( 41 ) serving as a compensating line are connected to one another and cut off from the line section ( 42 ). The air to be discharged from the pressure chamber ( 46 ) is, without any significant loss of line, cut over a large passage cross, passed into the expansion tank ( 21 ). As a result, a sudden emptying of the pressure chamber ( 46 ) and advantageously a quick response of the working cylinder, even during the emptying process, is possible. Instead of the double-sided check valve ( 44 ), the valve device ( 19 ) can also be used in combination with the check valve ( 7 ).

To regenerate the air dryer ( 4 ), the expansion tank ( 21 ) now escapes from the pressure chamber ( 46 ) via the check valve ( 23 ) and the throttle ( 24 ) via the air dryer ( 4 ) and the directional control valve ( 13 ) switched to passage. to the atmosphere outlet ( 14 ) passed. The directional control valve ( 2 ) assumes a switch position in which the pressure medium source ( 1 ) is separated from the rest of the system.

Claims (11)

1. Paint the air-actuated device with an air dryer between a pressure medium source and consumers, with the following characteristics:

• a) a pressure medium source is provided for filling up a consumer which can be actuated with compressed air;
• b) the consumer is ver bindable for filling with the pressure medium source via an air dryer then operated in drying operation;
• c) the consumer can be connected to an outlet of the air dryer to the atmosphere for emptying via the air dryer then operated in the regeneration mode;
• d) in the regeneration mode, the consumer is connected to the air dryer via a throttle point assigned to the air dryer,

characterized by the following features:

• e) there is an expansion tank ( 21 ) which serves for receiving air from the ent emptying consumer ( 6 , 45 ) and for delivering air to the air dryer ( 4 ) in regeneration operation;
• f) a switchable valve device ( 19 , 44 ) is provided with which the consumer ( 6 , 45 ) can be connected to an inlet ( 28 ) of the expansion tank ( 21 ) via an expansion line ( 20 , 41 );
• g) the expansion tank ( 21 ) or the equalization line ( 20 , 41 ) has an outlet ( 29 , 29 '), which in the regeneration mode of the air dryer ( 4 ) via the air dryer ( 4 ) associated throttle point ( 24 ) with the Air dryer ( 4 ) is connected;
• h) the passage cross section of the compensating line ( 20 , 41 ) from the consumer ( 6 , 45 ) to the compensating tank ( 21 ) is larger than that of the throttle point ( 24 ) assigned to the air dryer.

2. Device according to claim 1, characterized by the following features:

• a) the consumer ( 6 ) with the compensating container ( 21 ) connecting valve device ( 19 ) is designed to be electrically switchable;
• b) an electronic control device ( 12 ) is provided with which the electrical switching device ( 25 ) of the valve device ( 19 ) can be controlled electrically;
• c) the electrical switching device ( 25 ) can be controlled by the electronic control device ( 21 ) so that the valve device ( 19 ) assumes a switching position in which the expansion tank ( 21 ) for receiving air from the emptying consumer ( 6 ) this is connected ( Fig. 1, 3, 4).

3. Device according to the preceding claims 1 and 2, characterized by the following features:

• a) the expansion tank ( 21 ) can be connected to an outlet ( 34 ) provided with a throttle ( 37 ) to the atmosphere;
• b) the expansion tank ( 21 ) can be connected to the outlet ( 34 ) to the atmosphere via a switchable valve device ( 35 ) ( FIG. 4).

4. Device according to claim 3, characterized by the following features:

• a) the expansion tank ( 21 ) with the outlet ( 34 ) connecting to the atmosphere Ventileinrich device ( 35 ) is designed to be pneumatically switchable and actuated with the pressure of the expansion tank ( 21 );
• b) the valve device ( 35 ) is movable depending on a predetermined pressure of the expansion tank ( 21 ) in a switching position in which the expansion tank ( 21 ) is connected to the outlet ( 34 ) to the atmosphere ( Fig. 4).

5. Device according to claim 3, characterized in that the throttle ( 37 ) of the outlet ( 34 ) to the atmosphere has a substantially smaller passage cross section than the air dryer ( 4 ) associated throttle point ( 24 ) ( Fig. 4). 6. Device according to claim 1, characterized by the following features:

• a) to connect the air dryer ( 4 ) with the outlet ( 14 ) to the atmosphere, a pneumatically actuated valve device ( 31 ) is provided which has a pneumatic control input ( 32 );
• b) the pneumatic control input ( 32 ) with the pressure of the surge tank ( 21 ), or with the pressure of the surge line ( 20 ) can be impacted (FIGS . 3 and 4).

7. Device according to claim 1, characterized in that the switchable valve device ( 44 ) from a double-acting check valve ( 44 ) is formed that, controlled by the pressure of the consumer ( 45 ), assumes a switching position in which the consumer ( 45 ) is connected to the expansion tank ( 21 ) ( Fig. 5). 8. Device according to claim 1, characterized in that the switchable valve device for connecting the consumer ( 6 , 45 ) with the expansion tank ( 21 ) from the valve device ( 19 ) and the check valve ( 7 ) is formed ( Fig. 1, 3rd , 4, 5). 9. Device according to claim 1, characterized in that the consumer ( 6 ) from an air spring ( 6 ) is formed, which is part of a level control device and by filling and emptying regulations of a vehicle level in the sense of raising and lowering can be carried out ( Fig . 1, 3, 4). 10. The device according to claim 1, characterized in that the consumer ( 45 ) is formed from a working cylinder ( 45 ) which can perform actuation strokes by filling and emptying its pressure chamber ( 46 ) ( Fig. 5).