Patent Abstract:
A hydropneumatic suspension system for a vehicle with a level control, in particular for the front axle of a tractor, includes a first 2/2 directional control valve having a regulating-up function communicating with the pressurized oil pump and a second 2/2 directional control valve having a regulating-down function communicating with a reservoir.

Full Description:
[0001]    Priority is claimed to German Patent Application No. DE 103 06 756.6-21, filed on Feb. 17, 2003, the entire disclosure of which is incorporated by reference herein.  
         BACKGROUND  
         [0002]    The present invention is directed to a hydropneumatic suspension system for a vehicle, in particular for the front axle of a tractor provided with a level control.  
           [0003]    Due to the high load distribution they are subjected to, tractors often require a level control system. Depending on the load acting on the axle in question, the vehicle undergoes a spring compression or rebounding, and thus a lowering or lifting of the vehicle body. These variations are sensed by a level-control system, and the vehicle body is returned to its level position by regulating the pressure levels in the hydraulic suspension cylinders of the vehicle up or down, accordingly.  
           [0004]    A very simple approach for a level-control system is described in German Patent Application DE 1 780 394 A1. However, the mode of operation of the level-control system it discusses no longer meets the requirements of today&#39;s level-control systems.  
           [0005]    A hydropneumatic suspension system described in German Patent DE 42 42 448 C1, the entire disclosure of which is incorporated herein, represents a possible improvement. This system is specially conceived for vehicles having high load ratios, in particular for tractors having attachment means for add-on units. A load-sensing pump is used to create a suspension system that has a number of special advantages. This suspension system is able to be used quite advantageously in larger vehicles. However, when used in smaller tractors, i.e., lightweight tractors, it is typically underloaded.  
         SUMMARY OF THE INVENTION  
         [0006]    An object of the present invention is to provide a control block for smaller tractors, whose design is kept simple, making it inexpensive and uncomplicated, without adversely affecting its functional performance characteristics.  
           [0007]    The present invention provides a hydropneumatic suspension system for a vehicle, in particular for the front axle of a tractor, in that the level control is carried out via two 2/2 directional control valves, the 2/2 directional control valve having the regulating-up function communicating with the pressurized oil pump and the 2/2 directional control valve having the regulating-down function communicating with a reservoir. Thus, valves of the simple construction are used to attain the necessary opening and blocking, respectively, of the pressure line or also of the discharge line.  
           [0008]    The 2/2 directional control valves are designed as directional seat valves. Therefore, valves of a very simple design are used.  
           [0009]    To maintain a predefined pressure level in the annular spaces of the hydraulic suspension cylinders, the pressure line of the annular-space suspension circuit is provided with a pressure-controlled 2/2 directional flow-control spool valve. In addition, a non-return valve and a throttle are positioned in the pressure line of the annular-space suspension circuit, downstream from the 2/2 directional flow-control spool valve. The non-return valve prevents the pressurized oil from returning in a manner that is not intended, while the throttle reduces the inflow, to avoid a rapid pressure change.  
           [0010]    The relief line of the annular-space suspension circuit may be equipped with a pressure-limiting valve. This valve maintains the elevated pressure in the annular spaces of the suspension cylinders.  
           [0011]    To achieve a best possible action of the system, the opening pressure of the pressure-limiting valve and the blocking pressure of the flow-control spool valve are adjusted to one another in such a way that a predefined annular-space pressure level is achieved in the level position of the vehicle. In this context, when the suspension-cylinder stops are reached, the opening pressure of the pressure-limiting valve corresponds to the upper pressure-limiting value of the suspension system, and the blocking pressure of the flow-control spool valve corresponds to the lower pressure-limiting value of the suspension system. Good results are also attained when the pressure-limiting values are slightly below or above these values. In this way, one is able to prevent pressurized oil from flowing in and out, so that the spring action of the suspension within the stops takes place without any change in volume.  
           [0012]    Furthermore, it is beneficial for a bypass line, which by-passes the pressure-limiting valve and which is provided with a blocking valve, to be provided in the pressure-relief line of the annular-space suspension circuit. This enables the two suspension circuits to be relieved of pressure via a single relief valve. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWING  
       [0013]    The present invention is described in detail below, with reference to a drawing, in which:  
         [0014]    [0014]FIG. 1 shows a circuit diagram of a hydropneumatic suspension system according to the present invention. 
     
    
     DETAILED DESCRIPTION  
       [0015]    The hydropneumatic suspension system  1 , shown in FIG. 1, has a simple design. Suspension cylinders  2  and  3  of suspension system  1  have cylinder chambers  4  and  5 , as well as annular spaces  6  and  7 , which communicate via supply lines  8 ,  9  and  10 ,  11 , respectively, with the cylinder suspension circuit and the annular-space suspension circuit. Each suspension circuit Z or R is connected to a pressure accumulator  12  or  13 . Dot-dash line  14  frames the control and/or regulating devices for suspension circuits Z and R. The individual parts of the level-control circuit are of a conventional design.  
         [0016]    The vehicle-level control of suspension system  1  is carried out via 2/2 directional control valves  15  and  16 . In the process, 2/2 directional control valve  15 , which is actuated during the regulating-up function, is connected to pressure pump P, while 2/2 directional control valve  16 , which assumes the regulating-down function, is connected to reservoir T. 2/2 directional control valves  15 ,  16  are designed as directional seat valves. A 2/2 directional flow-control spool valve  18  is positioned in pressure line  17  leading to annular-space suspension circuit R. For the control pressure, flow-control spool valve  18  is connected via control line  19  to annular-space suspension circuit R. Non-return valve  21  and throttle  22  are interposed between 2/2 directional flow-control spool valve  18  and connection point  20  for control line  19 .  
         [0017]    Pressure-limiting valve  24  is positioned in relief line  23  of annular-space suspension circuit R. This pressure-limiting valve  24  is circumvented by bypass line  25  which is equipped with blocking valve  26 .  
         [0018]    Opening pressure P 1  of pressure-limiting valve  24  and blocking pressure P 2  of flow-control spool valve  18  are adjusted to one another in such a way, that, in response to the two cylinder stops being reached, a predefined annular-space pressure level P 3  results in the level position of the vehicle.  
         [0019]    In this context, it is possible that opening pressure P 1  of pressure-limiting valve  24  corresponds to the upper pressure-limiting value and blocking pressure P 2  of flow-control spool valve  18  to the lower pressure-limiting value in suspension-cylinder annular space.  
         [0020]    The level of the suspension system is adjusted upward in the following manner:  
         [0021]    If the suspension system undergoes spring compression in response to an increase in the axle load, then the pressure level in suspension circuit Z increases, and the pressure prevailing in suspension circuit R simultaneously decreases. If, in the area of the spring stop, the pressure of annular-space suspension circuit R, falls below the blocking-pressure value of pressure-controlled flow-control spool valve  18 , then the connection to cylinder suspension circuit Z is opened, and, in response to a higher pressure level in Z, pressurized oil flows via non-return valve  21  and via throttle  22  into suspension circuit R, until blocking pressure P 2  is reached and the connection is closed again. The feeding of pressurized oil into suspension circuit R is followed by a spring compression of suspension cylinders  2 ,  3 , maximally up to the spring stops. The change in position causes power to be supplied via an electrical level control (not shown) to 2/2 directional control valve  15 , so the pressure connection from connection P to control block  14  is opened. The pump pressure is conveyed to the LS control line, so that the pressure at connection P rises until pressurized oil is able to flow via the non-return valve into the supply line leading to suspension circuit Z. In response to an open position of flow-control spool valve  18 , pressurized oil is branched off into suspension circuit R to the point of blocking. Pressurized oil is delivered into suspension circuit Z until the axle reaches the level position, and directional control valve  15  is de-energized. In the level position, the annular-space pressure adjusts itself to the required pressure level though piston displacement.  
         [0022]    Adjusting the level downward:  
         [0023]    In response to unloading of the axle, suspension cylinders  2 ,  3  rebound. If when the rebound stops are reached, the pressure level in annular-space suspension circuit R exceeds the opening pressure of pressure-limiting valve  24 , then excess pressurized oil flows off to connection T. The electrical control energizes 2/2 directional control valve  16  and allows pressurized oil to flow off from suspension cylinder circuit Z to connection T, until the level position is reached, and directional-control valve  16  is de-energized. In the level position, in response to the volume displacement from the annular-space accumulator, the annular space assumes the required counterpressure.  
         [0024]    Pressure relief during service work:  
         [0025]    To relieve pressure from the suspension system in order to do repair work, only one service valve  26  is to be opened. The pressure is relieved in two stages.  
         [0026]    Once service valve  26  is opened, in the first stage, the pressurized oil escapes from annular-space suspension circuit R until the pressure level of the lower limiting value is reached. In the second stage, in response to the pressure value falling below the lower limiting value, flow-control spool valve  18  releases the hydraulic connection to cylinder suspension circuit Z, enabling the pressurized oil to also be completely relieved via suspension circuit R.  
         [0027]    In response to the release of pressure in the first stage, vehicle body at first moves slowly upward. Not until the second stage does the vehicle body move slowly down to the spring stops.  
         [0028]    It is, therefore, significant that, in the hydraulic interconnection of the cylinders&#39; annular-space suspension circuit, a hydraulically controlled 2/2 directional control valve  18  is installed, and, in the annular-space suspension circuit, a pressure-limiting valve  24  is installed, the hydraulic functional data of the valves being mutually coordinated in such a way that, in the level position, a predefined pressure level is able to be maintained in cylinder annular space R.

Technology Classification (CPC): 1