KR102436724B1 - Preselection valve, hydraulic valve assembly and hydraulic control unit - Google Patents

Abstract

The invention relates to a preselection valve (1) for a hydraulic valve assembly having a load pressure line arrangement (2), a pressure connection (3) and at least one pressure outlet (4, 5). The load pressure line arrangement 2 comprises at least one load pressure connection 6 , at least one load pressure outlet 7 , a first load pressure line 8 and a second load pressure connection to the load pressure connection 6 . line (9). A first load pressure line 8 or a second load pressure line 9 is connected to the load pressure outlet 7 . The preselection valve 1 can be switched from the neutral position N to the first switching position 1S, whereby the pressure port 3 in the first switching position 1S of the preselection valve 1 pressurizes connected to the outlet (4). The first load pressure line 8 connects the pressure port 3 to the load pressure outlet 7 in the first switching position 1S, whereby the closing valve 10 is connected to the first load pressure line 8 . are arranged The invention also relates to a hydraulic valve assembly and a hydraulic control device.

Description

PRESELECTION VALVE, HYDRAULIC VALVE ASSEMBLY AND HYDRAULIC CONTROL UNIT

The present invention relates to a preselection valve for a hydraulic valve assembly, a hydraulic valve assembly having such a preselection valve, and a hydraulic control device having the hydraulic valve assembly according to the present invention.

Such preselection valves are known from the prior art, for example from EP 3 093 505 A1 or EP 1 837 529 A1. A known preselection valve has a load pressure line arrangement, a pressure port and at least one pressure outlet. The hydraulic pump is usually connected to the pressure port via an input block, and the prevailing load pressure in the hydraulic system or hydraulic control unit is reported to the hydraulic pump or pump controller via the load pressure line arrangement. Typically, a group of hydraulic consumers to be controlled is selected through a preselection valve. In the example of forestry cranes these can be outriggers on the one hand and jib arms or crane arms on the other hand.

Especially when controlling the jib arm, the hydraulic control device needs to be preloaded, ie the pump has previously been delivered at the desired flow rate to provide the preload pressure. Therefore, in the prior art, it is known to short-circuit the pressure port and the load pressure line arrangement when the preselection valve is moved from the neutral position to the first switching position to control the jib arm.

The load pressure line arrangement for this purpose comprises at least one load pressure connection, at least one load pressure outlet, a first load pressure line and a second load pressure line connected to the load pressure connection. During operation the first load pressure line or the second load pressure line is connected to the load pressure outlet, depending on which of the two load pressure lines has the higher load pressure. The first load pressure line is a load pressure line connected to the pressure port in the first switching position. The load pressure of the hydraulic system is reported via the load pressure connection and the second load pressure line.

A disadvantage of the known solutions is that the desired preload pressure can only be limited to a certain value with great effort, for example by means of a nozzle and a pressure relief valve. This solution is only partially feasible. This is because losses occur and the risk of cavitation in the hydraulic fluid increases dramatically. In particular, the latter leads to increased wear and consequently shortens the life of the hydraulic control unit.

It is therefore an object of the present invention to disclose a preselection valve in which the hydraulic preload in a switching position for controlling a hydraulic pressure demander or a group of hydraulic pressure consumers can be limited to a desired pressure in a simple manner.

The solution to the above problem is achieved by the features of claim 1 . Other preferred embodiments are described in the dependent claims.

The preselection valve according to the present invention is characterized over the preselection valve known in the prior art in that a closing valve is arranged in the first load pressure line. Preferably, the closing valve is configured as a pressure-dependent closing valve.

The closing valve closes as soon as the pressure applied to the inlet port of the closing valve reaches the limiting pressure. However, up to this pressure the actual pump pressure is present in the load pressure line arrangement and is notified to the pump or pump controller. This is a simple way of ensuring that a preload is generated when the preselection valve is switched to the first switching position and at the same time limiting the load pressure to the desired pressure, ie limiting or preload pressure.

Furthermore, the preselection valve according to the invention also forms a lock for increasing the pressure. Based on the switching position of the preselection valve, it can be selected whether or not to raise the pressure of the load pressure line arrangement to the limiting pressure.

Preferably, the closing valve comprises a spring device acting in the opening direction of the closing valve and the pressure in the first load pressure line acts against the spring device, ie in the closing direction of the closing valve. Preferably the spring arrangement is an adjustable spring arrangement. The desired closing pressure of the closing valve, for example 40 bar or even 200 bar, can be set by adjusting the pretension of the spring device. Therefore, according to the practical application, the maximum preload pressure can be set quickly and easily.

The closing valve is preferably configured as a seat valve. A seat-tight seal implemented in this way reliably prevents undesired leakage flow through the closing valve.

Alternatively, the closing valve may be configured as a spool valve. Spool valves are significantly less expensive to manufacture than seat valves.

Preferably, a shuttle valve is arranged in the load pressure line arrangement so that the first load pressure line or the second load pressure line is connected to the load pressure outlet depending on the pressure. The shuttle valve ensures that the hydraulic pump is always notified of the minimum limiting pressure set in the closing valve. When the load pressure at the hydraulic demand point is higher than the limiting pressure set in the closing valve, the shuttle valve connects the second load pressure line to the load pressure outlet and at the same time closes the connection between the first load pressure line and the load pressure outlet.

Preferably, the preselection valve comprises a return line, the load pressure outlet being connected to the return line in the neutral position of the preselection valve. This ensures that the pump is adjusted to minimum capacity in the neutral position of the preselection valve, as the load pressure is relieved through the return line to the tank. It also ensures that no load pressure is reported to the hydraulic pump due to any position of the control spool of the hydraulic valve assembly.

Preferably, the preselection valve can be switched from the neutral position to the second switching position. The load pressure line arrangement comprises a third load pressure line connecting the pressure port with the load pressure outlet in the second switching position. In this case, the load pressure line arrangement is shorted to the pressure port without the closing valve being activated. The pump pressure is thus applied when the preselection valve is in the second switching position, for example to extend the outrigger of a forestry crane. Depending on the volumetric flow rate or any subsequent valve (such as a throttle valve), a maximum pump pressure or a regulated pump pressure is applied to the corresponding pressure outlet.

Alternatively, it is also possible for the closing valve to be active in the second switching position, in that the third load pressure line opens to the first load pressure line upstream of the closing valve. It is also possible for a second closing valve to be provided, which second closing valve limits the pressure in the load pressure line arrangement in the second switching position. The latter has the advantage that the limiting or preload pressure can be different for different pressure outlets.

Furthermore, the above problem is solved by a hydraulic valve assembly according to claim 10 . According to the present invention, a hydraulic valve assembly includes the preselection valve described above with at least one control spool connected to the preselection valve.

Further, the above problem is solved by a hydraulic control device according to claim 11 . The hydraulic control device comprises a hydraulic valve assembly according to the present invention and a hydraulic pump connected to the preselection valve via an input block. The hydraulic pump may be a variable displacement pump or a fixed displacement pump.

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments shown in the drawings. In the drawings, the following is schematically shown:
1 is a hydraulic circuit diagram of a hydraulic control device according to the present invention.
FIG. 2 is a hydraulic circuit diagram of a preselection valve of the hydraulic control device shown in FIG. 1 .
Fig. 3 is a modification of the hydraulic circuit diagram shown in Fig. 1;

1 shows a hydraulic circuit diagram of a hydraulic control device 100 according to the present invention. In this embodiment, the hydraulic control device 100 comprises a hydraulic valve assembly 101 comprising two control spools 102 , a preselection valve 1 , an input block 103 and a hydraulic pump 104 . . In this embodiment, the hydraulic pump 104 is configured as a variable displacement pump. The hydraulic pump 104 delivers hydraulic fluid from the tank 105 to the preselection valve 1 via an inlet block 103 . The preselection valve 1 is shown in more detail in FIG. 2 and is configured in this embodiment as a spool valve. 2 , some elements have been omitted for clarity. The preselection valve 1 can be switched from the neutral position N to the first switching position 1S or the second switching position 2S.

In the first switching position 1S of the preselection valve 1 , pressure is applied to the control spool 102 of the hydraulic valve assembly 101 , for example to control a jig arm of a vehicle equipped with a movable hydraulic device. . In the second switching position 2S of the preselection valve 1 , the second group of hydraulic consumers, for example the outriggers of the vehicle, are pressed. The vehicle may be, for example, a forestry crane or a concrete pump.

To this end, the preselection valve 1 comprises a second pressure outlet 5 pressurized in the second switching position 2S and a first pressurized in the first switching position 1S to supply pressure to the control spool 102 . Together with the pressure outlet (4) it comprises a pressure port (3) connected to the inlet block (103).

The preselection valve 1 also includes a return line 13 connected to the tank 105 via an inlet block 103 . In the first switching position 1S the second pressure outlet 5 is connected to the return line 13 and in the second switching position 2S the first pressure outlet 4 is connected to the return line 13 .

The preselection valve 1 also comprises a load pressure line arrangement 2 in which the load pressure of the hydraulic control device 100 is reported to the hydraulic pump 104 . To this end, the load pressure line arrangement 2 has a load pressure connection 6 connected to the corresponding load pressure line of the hydraulic valve assembly 101 and a load pressure outlet connected to the corresponding load pressure line of the input block 103 . (7) is included.

The load pressure line arrangement 2 further comprises a second load pressure line 9 connected to a first load pressure line 8 , in which a pressure-dependent closing valve 10 is arranged, and to a load pressure connection 6 . The first load pressure line 8 and the second load pressure line 9 are connected to the load pressure outlet 7 via a shuttle valve 12 , so that each higher load pressure is notified to the hydraulic pump 104 . .

In the first switching position 1S of the preselection valve 1 , the pressure port 3 is short-circuited with the first load pressure line 8 , so that the current pump pressure is notified to the hydraulic pump 104 as the load pressure. . The closing valve 10 is in the open position and the shuttle valve 12 connects the first load pressure line 8 with the load pressure outlet 7 . The closing valve 10 comprises an adjustable spring arrangement 11 to which a limiting pressure at which the closing valve 10 is closed can be set. The adjustable spring arrangement 11 therefore acts in the opening direction of the closing valve 10 . The pressure in the first load pressure line 8 acts against the spring arrangement 11 in the closing direction of the closing valve 10 .

Depending on the practical application, the limiting pressure of the closing valve 10 can be set via the adjustable spring device 11 , for example to 40 bar, 60 bar or even 120 bar. Consequently, when the preselection valve 1 is switched from the neutral position N to the first switching position 1S, the hydraulic pump 104 is preloaded with a preload pressure corresponding to the limiting pressure.

During later operation of the vehicle or hydraulic control device 100 , if a load pressure exceeding the preload or limiting pressure is applied to one of the control spools 102 , this means that the shuttle valve 12 9) is notified to the hydraulic pump 104 via the second load pressure line 9 and the load pressure outlet 7, in that it connects 9) with the load pressure outlet 7 and cuts off the first load pressure line 8. do.

Furthermore, the load pressure line arrangement 2 comprises a third load pressure line 14 which opens upstream of the shuttle valve 12 and into a first load pressure line 8 downstream of the closing valve 10 . In the second switching position 2S of the preselection valve 1 , the third load pressure line 14 is connected to the pressure port 3 and thus the current pump pressure is notified to the hydraulic pump 104 as the load pressure. . Since the third load pressure line 14 bypasses the closing valve 10 , the load pressure is not limited to the limiting pressure. Rather, the hydraulic pump 104 is adjusted to maximum pressure, for example depending on which subsequent valve (such as a throttle valve) is connected.

In the neutral position N of the preselection valve 1 , the pressure port 3 is blocked and the load pressure outlet 7 is connected to the return line 13 via a relief line 15 . The load pressure line arrangement 2 is thus relieved in the neutral position N towards the tank 105 . The hydraulic pump 104 is therefore regulated to a minimum output in the neutral position N of the preselection valve 1 and is not controlled to a higher output by any load pressure on the control spools 102 .

FIG. 3 shows a modified example of the hydraulic circuit diagram shown in FIG. 1 . Here a third load pressure line 14 ′ upstream of the closing valve 10 opens into the first load pressure line 8 . Consequently, in this modification the closing valve 10 is also activated in the second switching position 2S and also limits the pressure of the load pressure line arrangement when the second pressure outlet 5 is actuated.

1: Preselection valve
2: Load pressure line arrangement
3: pressure port
4: pressure outlet
5: pressure outlet
6: Load pressure connection
7: Load pressure outlet
8: first load pressure line
9: Second load pressure line
10: closing valve
11: spring device
12: shuttle valve
13: return line
14, 14': third load pressure line
15: relief line
100: hydraulic control unit
101: hydraulic valve assembly
102: control spool
103: input block
104: pump
105: tank
1S: first switching position
2S: second switching position
N: neutral position

Claims (11)

A preselection valve (1) for a hydraulic valve assembly (101) having a load pressure line arrangement (2), a pressure connection (3) and at least one pressure outlet (4, 5), comprising:
The load pressure line arrangement ( 2 ) comprises at least one load pressure connection ( 6 ), at least one load pressure outlet ( 7 ), a first load pressure line ( 8 ) and a second load pressure connection ( 6 ) connected to the first load pressure line ( 8 ). load pressure line (9);
the first load pressure line (8) or the second load pressure line (9) is connected to the load pressure outlet (7),
The preselection valve 1 can be switched from a neutral position N to a first switching position 1S, and the pressure connection 3 is connected to the first switching position 1S of the preselection valve 1 . connected to the pressure outlet (4) at
In the first switching position (1S) the first load pressure line (8) connects the pressure connection (3) with the load pressure outlet (7),
A preselection valve (1), characterized in that a closing valve (10) is arranged in the first load pressure line (8). The method of claim 1,
Preselection valve (1), characterized in that the closing valve (10) is a pressure dependent closing valve. 3. The method of claim 1 or 2,
The closing valve 10 comprises a spring arrangement 11 acting in the opening direction of the closing valve, and the pressure in the first load pressure line 8 is applied to the spring arrangement of the closing valve 10 . A preselection valve (1), characterized in that it acts against it. 4. The method of claim 3,
The preselection valve (1), characterized in that the spring arrangement (11) is an adjustable spring arrangement. 3. The method of claim 1 or 2,
Preselection valve (1), characterized in that the closing valve (10) is configured as a seat valve or as a spool valve. 3. The method of claim 1 or 2,
A shuttle valve (12) is arranged in the load pressure line arrangement (2) such that the first load pressure line (8) or the second load pressure line (9) is connected to the load pressure outlet (7) depending on the pressure Pre-selection valve (1), characterized in that. 3. The method of claim 1 or 2,
The preselection valve 1 comprises a return line 13 , wherein the load pressure outlet 7 is connected to the return line 13 in the neutral position N of the preselection valve 1 . Preselection valve (1), characterized in that connected to. 3. The method of claim 1 or 2,
The preselection valve (1) can be switched from the neutral position (N) to a second switching position (2S), the load pressure line arrangement (2) comprising a third load pressure line (14), the Preselection valve (1), characterized in that a third load pressure line (14) connects the pressure connection (3) to the load pressure outlet (7) in the second switching position (2S). 3. The method of claim 1 or 2,
The preselection valve (1) can be switched from the neutral position (N) to a second switching position (2S), the load pressure line arrangement (2) comprising a third load pressure line (14'), Preselection valve (1), characterized in that the third load pressure line (14') opens into the first load pressure line (8) upstream of the closing valve (10). A hydraulic valve assembly (101) comprising a preselection valve (1) according to claim 1 or 2 and at least one control spool (102) connected to said preselection valve (1). A hydraulic control device (100) comprising a hydraulic valve assembly (101) according to claim 10 and at least one hydraulic pump (104) connected to the preselection valve (1) via an input block (103).

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