DE102010053975A1 - valve unit - Google Patents

Abstract

The present invention relates to a valve unit for a hydraulic system with at least three, the valves and the actuating means being indirectly and / or directly connectable and / or connected to one another, wherein in at least one operating state the two further valves are arranged in parallel downstream of a first valve and whereby by means of the Control means can be transmitted to at least one control signal to at least one of the valves. The invention also relates to a hydraulic system and a construction vehicle.

Description

The present invention relates to a valve unit for a hydraulic system and a hydraulic assembly and a construction vehicle.

In construction vehicles, such as hydraulic excavators so-called hydraulic accumulator, which are essentially hydraulic accumulator for pressurized hydraulic fluid such. As hydraulic oil are used, often in conjunction with a hydraulic consumer such. B. a hydraulic actuating cylinder.

Since the characteristic curve of such a hydraulic accumulator is highly temperature-dependent, it is difficult to remain on the ideal characteristic curve in the case of a strongly moving accumulator having different oil temperatures, as may be the case, for example, in the case of a setting cylinder of a construction vehicle designed as an energy-saving cylinder.

Consequently, it is necessary to readjust the pressure.

The previously known approaches to this approach are characterized by the cumbersome and complex readjustment of the pressure.

It is therefore an object of the present invention to further develop a valve unit for a hydraulic arrangement of the type mentioned in an advantageous manner, in particular to the effect that a pressure readjustment in hydraulic systems comprising a hydraulic accumulator and a hydraulic consumer can be easily made even with a strong moving memory with different oil temperatures ,

This object is achieved by a valve unit with the features of claim 1. Thereafter, it is provided that a valve unit is designed for a hydraulic arrangement with at least three valves and at least one actuating means, wherein the valves and the actuating means indirectly and / or directly connected to each other and / or are connected, wherein in at least one operating state downstream of the first valve, the two further valves are arranged in parallel and wherein at least one actuating signal can be transmitted to at least one of the valves by means of the actuating means.

This results in the advantage that the valve unit can be easily controlled in order to allow a pressure readjustment in a simple form, for example, in a strongly moving hydraulic accumulator, for example, downstream of the valve unit, that is arranged downstream of the valve unit. In particular, it is no longer necessary to provide a control loop.

Furthermore, it can be provided that at least one actuating signal can be transmitted to all valves of the valve unit by means of the actuating means and / or that the opening state of at least one valve can be changed and / or adjusted on the basis of the actuating signal.

It is also possible that in at least one operating state upstream of the first valve, a connection means is provided, by means of which the valve unit is indirectly and / or directly connectable to a hydraulic pumping means.

It can further be provided that in at least one operating state downstream of a second valve, which is one of the two valves arranged parallel and downstream of the first valve, a connection means is provided, by means of which the valve unit indirectly and / or directly to a hydraulic consumer and / or Hydraulic storage is connectable.

Moreover, it is further conceivable that in at least one operating state of the valves downstream of a third valve, which is one of the two valves arranged parallel and downstream of the first valve, a connection means is provided, by means of which the valve unit indirectly and / or directly connected to a hydraulic fluid reservoir is. Such a hydraulic fluid reservoir may for example be a hydraulic tank for the hydraulic oil.

It is also conceivable that the adjusting means is a control unit and / or comprises and wherein at least one control signal can be generated by means of the control unit.

It can be provided that the adjusting means is a mechanical, hydraulic and / or electrical actuating means, by means of which at least one mechanical, hydraulic and / or electrical actuating signal can be generated.

In addition, it can be provided that by means of the valve unit on the output side of the valve unit, a pressure can be controlled, which is proportional to the control signal. This pressure can be, for example, the pressure in a hydraulic accumulator of a hydraulic system.

It is also possible that at least one valve, preferably all valves of the valve unit, at least one spring means, by means of which the opening state of the valve can be influenced, preferably thereby indirectly and / or directly the switch-on, the pressure increase of the valve of flowing fluid and / or an artificial hysteresis of the valve is adjustable.

The possibility of being able to indirectly and / or directly set the switch-on point, the pressure rise of the fluid flowing through the valve and / or an artificial hysteresis of the valve affords the advantage of optimally adapting to the requirements of the hydraulic consumer of a corresponding hydraulic arrangement to be able to.

Furthermore, it can be provided that at least one valve, preferably all valves of the valve unit or particularly advantageously only the second valve, which is one of the two valves arranged parallel and downstream of the first valve, can be blocked. This advantageously results in the possibility of being able to switch on the pressure readjustment if necessary. It is therefore possible to be able to set the pressure in a hydraulic accumulator or accumulator of a hydraulic arrangement "black / white" arranged downstream of the valve unit.

Furthermore, the present invention relates to a hydraulic arrangement with the features of claim 9. Thereafter, it is provided that a hydraulic arrangement comprises at least one valve unit according to one of claims 1 to 8, wherein the hydraulic arrangement in particular further at least one hydraulic accumulator, a hydraulic consumer, wherein the hydraulic consumer For example, a hydraulic cylinder, a hydraulic pumping means, a pressure measuring means and / or a hydraulic fluid reservoir.

Furthermore, the present invention relates to a construction vehicle with the features of claim 10. Thereafter, it is provided that a construction vehicle with at least one valve system according to claim 1 to 8 and / or a hydraulic arrangement according to claim 9 is provided.

Further details and advantages of the invention will now be explained in more detail with reference to an embodiment shown in the drawing. Show it:

1 a schematic representation of a hydraulic system comprising a valve unit according to the invention; and

2 : a diagram relating to the relationship between pressure (in the hydraulic accumulator) and control signal X.

1 shows a schematic representation of a hydraulic system 10 with a valve unit 100 , This valve unit 100 has three connections 110 . 120 and 130 on, by means of which the valve unit 100 to a pump 200 to a store 300 and a hydraulic oil reservoir 400 or a hydraulic tank 400 is connectable.

From the reservoir 400 promotes the pump 200 Hydraulic oil over the connection 110 the valve unit 100 into the valve unit 100 into it. The connection 110 the hydraulic oil leads to a first valve 140 that is a feather 142 having. By the spring 142 can be the switch-on point, the slope, artificial hysteresis etc. of the valve 140 be set. Downstream of the valve 140 are in parallel arrangement a second valve 150 and a third valve 160 intended.

Also the second and the third valve 150 . 160 each have springs 152 respectively. 162 on, by means of which the valves 150 and 160 as well as the valve 140 that by means of the spring means 142 is adjustable, with regard to switch-on point, slope, artificial hysteresis, etc. are adjustable.

The downstream of the valve 140 subsequent hydraulic line 170 splits downstream of the valve 140 on and leads both to the valve 150 with the line 172 and to the valve 160 with the line 174 , Downstream of the valve 150 is the connection 120 at which the supply line 310 connected to the memory 300 leads. On the supply line 310 is also a pressure gauge 320 provided by means of which the pressure in the pipe 310 or in memory 300 is measurable. On the basis of this determined value, for example, automatically or machine side, for example by the control of the hydraulic system 10 be recognized that a readjustment of the memory pressure of the memory 300 is required. At the store 300 it is preferably a hydraulic accumulator 300 for an energy-saving cylinder 500 who exemplifies here as a hydraulic consumer 500 is marked.

About the line 174 can hydraulic fluid through the valve 160 be guided, being downstream of the valve 160 the connection 130 is provided to the one line to the hydraulic reservoir 400 connected.

To readjust the valve unit 100 , which also for the sake of simplicity as a readjustable charging valve unit 100 or as a re-adjustable charging valve 100 can be designated to carry out, by means of a control unit or actuator, not shown, a control signal or a manipulated variable X given via corresponding signal transmission lines 190 to the valves 140 . 150 and 160 is transmitted. By means of this manipulated variable X can then the valve unit 100 be driven accordingly to the pressure P in the memory 300 to be able to adjust. The manipulated variable X is proportional to the pressure P in the memory 300 ,

The manipulated variable X may be a mechanical, hydraulic or electrical manipulated variable X. Also, it can be provided only from a certain threshold X, the valve 150 open, so a Nachjustierbarkeit the pressure P in the memory 300 to allow only from an exceeding of a threshold value of the manipulated variable X. This relationship is for example in 2 shown. Like this in 2 is shown, is only from a value X1, which here corresponds to about 5% of the maximum value of the manipulated variable X, switching on or switching the valve 150 allows. This relationship is represented by characteristic K150.

Like this further 2 are apparent, are increase of manipulated variable X and the pressure P, ie the pressure P in the memory 300 or cylinder 500 proportional.

The characteristic curve K140 relates to the relationship of the manipulated variable X for the valve 140 and the pressure P. The same applies to the characteristic K160, the relationship of the manipulated variable X for the valve 160 and the pressure P describes.

Overall, this results in a simple control of the valve unit 100 in that a certain pressure P is assigned to a specific control signal X, in particular a pressure of 30% of the maximum pressure P is assigned to a control signal X which corresponds to 30% of the maximum value of the control signal X. Therefore, it is not necessary to have a complex control circuit for readjusting and regulating the pressure P in the memory 300 provided.

Claims (10)

Valve unit ( 100 ) for a hydraulic system ( 10 ) with at least three valves ( 140 . 150 . 160 ) and with at least one actuating means, wherein the valves ( 140 . 150 . 160 ) and the adjusting means are indirectly and / or directly connectable to each other and / or connected, wherein in at least one operating state downstream of a first valve ( 140 ) the two other valves ( 150 . 160 ) are arranged in parallel and wherein by means of the actuating means at least one actuating signal (X) to at least one of the valves ( 140 . 150 . 160 ) is transferable. Valve unit ( 100 ) according to claim 1, characterized in that by means of the actuating means at least one actuating signal (X) to all valves ( 140 . 150 . 160 ) of the valve unit ( 100 ) can be transmitted and / or that based on the control signal, the opening state of at least one of the valves ( 140 . 150 . 160 ) is variable and / or adjustable. Valve unit ( 100 ) according to claim 1 or 2, characterized in that in at least one operating state upstream of the first valve ( 140 ) a connection means ( 110 ) is provided, by means of which the valve unit ( 100 ) indirectly and / or directly to a hydraulic pumping means ( 200 ) and / or that downstream of a second valve ( 150 ), one of the two parallel and downstream of the first valve ( 140 ) arranged valves ( 150 . 160 ), a connection means ( 120 ) is provided, by means of which the valve unit ( 100 ) indirectly and / or directly to a hydraulic consumer ( 500 ) and / or hydraulic storage ( 300 ) and / or that downstream of a third valve ( 160 ), one of the two parallel and downstream of the first valve ( 140 ) arranged valves ( 150 . 160 ), a connection means ( 130 ) is provided, by means of which the valve unit ( 100 ) indirectly and / or directly to a hydraulic fluid reservoir ( 400 ) is connectable. Valve unit ( 100 ) according to one of the preceding claims, characterized in that the adjusting means is a control unit and / or comprises and wherein by means of the control unit, the at least one actuating signal (X) can be generated. Valve unit ( 100 ) according to one of the preceding claims, characterized in that the adjusting means is a mechanical, hydraulic and / or electrical actuating means, by means of which at least one mechanical, hydraulic and / or electrical actuating signal (X) can be generated. Valve unit ( 100 ) according to one of the preceding claims, characterized in that by means of the valve unit ( 100 ) on the output side of the valve unit ( 100 ) a pressure is adjustable, which is proportional to the control signal. Valve unit ( 100 ) according to one of the preceding claims, characterized in that at least one valve ( 140 . 150 . 160 ), preferably all valves ( 140 . 150 . 160 ) of the valve unit, at least one spring means ( 142 . 152 . 162 ), by means of which the opening state of the valve ( 140 . 150 . 160 ) is influenced, preferably thereby indirectly and / or directly the switch-on, the pressure rise of the valve ( 140 . 150 . 160 ) flowing fluid and / or an artificial hysteresis of the valve ( 140 . 150 . 160 ) is adjustable. Valve unit ( 100 ) according to one of the preceding claims, characterized in that at least one valve ( 140 . 150 . 160 ), preferably all valves ( 140 . 150 . 160 ) of the valve unit ( 100 ) or particularly advantageous only the second valve ( 150 ), one of the two parallel and downstream of the first valve ( 140 ) arranged valves ( 150 . 160 ) is lockable. Hydraulic arrangement ( 10 ) comprising at least one valve unit ( 100 ) according to one of claims 1 to 8, wherein the hydraulic arrangement ( 10 ) in particular further at least one hydraulic accumulator ( 300 ), a hydraulic consumer ( 500 ), the hydraulic consumer ( 500 ), for example, a hydraulic cylinder ( 500 ) is a hydraulic pumping means ( 200 ), a pressure measuring means ( 320 ) and / or a hydraulic fluid reservoir ( 400 ) having. Construction vehicle with a valve unit ( 100 ) according to claim 1 to 8 and / or a hydraulic arrangement ( 10 ) according to claim 9.

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