DE19719636C2 - Hydraulic device with adjustable pump for supplying a first and a second consumer - Google Patents

Description

The invention relates to a hydraulic device with a controllable pump Supply of a first and a second consumer according to the generic term of Pa claim 1.

In hydraulic systems, there is often the requirement of a single hydraulic pump to supply at least a first and a second consumer. To usually it is at least a main and a secondary consumer, like them e.g. B. are provided in hydraulic excavators. For the actuation of the boom are hy Draulic servomotors (main consumers) provided, which are supplied by a pump and controlled by a conventional control valve assembly for actuation  an attachment or the like, such as. B. hydraulic scissors (in addition consumer), a servomotor is also required, which must be controlled on a case-by-case basis. From DE 35 35 771 C1 it is known to use secondary consumers via the main control valve arrangement and to supply or control them via additional downstream fittings. Night egg lig is the effort required for this, since at least one additional valve and a menu divider are required. The subsequent installation in existing devices is also relatively complex and often not feasible.

It is also known to supply an additional hydrau to supply an auxiliary consumer to provide lik pump. The effort is even greater.

The invention has for its object a hy a controllable pump Draulic device for supplying a first and a second consumer to create an adjustable pump that is easy to assemble and assemble and that in one can also be retrofitted in hydraulic systems. Except the power loss should be minimal.

This object is achieved by the features of patent claim 1.

In the device according to the invention is in the current path to the first consumer before associated control valve arranged a first valve with current control behavior. In Strö direction upstream of the first flow control valve is a second flow control valve arranged on the side of the second control valve. The second flow control valve regulates the flow mung amount to the assigned consumer, for. B. a secondary consumer. The pressure on the secondary consumer is on the second control surface of the valve member of the first  Flow valve given so that it is biased in the closed position and so far can drive into the throttle position that the pressure required at the second consumer will hold. It is therefore ensured that the secondary consumer with sufficient Amount of hydraulic medium and sufficient pressure is supplied.

The hydraulic device according to the invention, which is in a common housing Can be accommodated directly at the output of the controllable hydraulics pump can be arranged. Appropriate space for this is usually available, so that retrofitting existing hydraulic systems does not pose any problems tet.

The device according to the invention is based on a controllable hydraulic pump. The Control system for the first consumer, which consists of a plurality of individual consumers can exist, can be of any conventional type.

According to one embodiment of the invention, there is between the associated tax valve connected output of the second flow control valve and the connection to A second throttle arranged a throttle, and behind it in the flow direction Throttle is connected to the second control valve, which is in its neutral position switched to the tank. In this way, even when the second tax is closed valve a certain amount to the tank, e.g. B. 3 to 4 liters per minute. This relatively ge Small losses are acceptable, however, as security is obtained in this way against the undesired closing of the first flow control valve against the pump. By the connection to the tank when the second control valve is closed is also the second  Control surface at the tank pressure level, so that an undesired adjustment of the valve member of the first flow control valve in the closed position due to an adjustment pressure on the second control surface cannot take place.

First and second control surfaces on the valve member of the first flow control valve are approx the same so that the desired pressure can be set on the second consumer can. Because of existing losses, however, it may be advantageous if the second Control area is larger than the first, for example by 20%.

For the design of the first valve with flow control properties, there are ver different solutions. According to the invention, one is that the first Flow control valve has a spool, which has the first effective surface facing end portion cooperates with a seat edge of a valve housing, wherein the end portion has depressions, millings or the like to improve the Rule property and the end section is surrounded by an annular space that over min at least one radial bore in the piston slide with an axial channel inside the piston benschieber connected, which in turn with the output of the first current control valve is in constant communication. The first flow control valve, its spool is preferably biased in the closing direction by a spring, opens as soon as the Pump works, regardless of whether the first consumer queries performance. If the second consumer is switched on via the assigned control valve, one occurs Biasing the first flow control valve to the closed position  due to the pressure that arises at the second control surface and from the second Consumer is caused. As a result, the second consumer is the last one Lich desired pressure, which by partially closing the first flow control tils is built on its entrance side.

The radial bore in the piston slide opens into the inner channel of the piston slide bers and is connected to the outside with an annulus. This shows a certain axial extension in such a way that there is still sufficient overlap, when the spool is fully open. This will Changes in flow when the first flow control valve is open calmed by the flow tion first flows against the opposite end face of the annulus and then is deflected to the radial bore. The pressure caused by the flow on the Piston slide is reduced. There are essential for the position of the spool the static pressure conditions.

According to a further embodiment of the invention, the second control surface is on one radial collar of the spool formed in an enlarged bore section of the valve housing is mounted sealed. Piston shooting has on both sides of the federal government About the same cross-section, with these sections dimensioned accordingly NEN bore sections of the valve housing are guided.

According to a further embodiment of the invention, a third control surface is on the piston slide formed, rectified with the first control surface and via a throttle bore is connected to the channel in the spool. This is another Si  Security feature created that prevents the spool of the first stream control valve is adjusted in the undesirable closed position in the event of pressure surges.

An embodiment of the invention is described in more detail below with reference to drawings explained.

Fig. 1 shows a hydraulic circuit diagram for a device according to the invention.

FIG. 2 shows in section a valve of the device according to FIG. 1.

A hydraulic pump 10 , the volume of which can be controlled or regulated, supplies one or more main consumers and a secondary consumer. The primary consumer, not shown, are connected via a first control valve assembly 12 of the pump 10 connected with ver. A secondary consumer 14 is also connected to the pump 10 via a control valve arrangement 16 . The device shown is e.g. B. contained in a hydraulic excavator, z. B. the hydraulic motor 14 drives hydraulic scissors, while the consumers controlled by the control valve assembly 12 are, for example, hydraulic servomotors for the boom, etc.

Immediately at the outlet of the pump 10 is a housing 18 , in which a number of hydraulic components are housed, which will be discussed in more detail below.

A first flow control valve 20 is located in the flow path 22 between the pump 10 and the first control valve arrangement 12 . The structure and mode of operation of the valve 20 are shown in more detail in FIG. 2, which will be explained below. From the housing 24 of the valve 20 is a first branch line 26 in which a flow control valve 28 is arranged, which is assigned an adjustable throttle 30 in the line 26 . The line 26 leads to the second control valve 16 , which is a solenoid valve. A second branch line 32 from the housing 24 contains a throttle 34 which is connected via a further throttle 36 to the line 26 downstream of the throttle 30 . A point between the throttles 34 , 36 is connected to the control valve 16 via a line section 38 . In the neutral position of the control valve 16 shown in FIG. 1, this connects the line section 38 with a line 40 to the tank 42 . The outputs of the valve 16 , which is designed as a two-five-way valve, are connected to the hydraulic motor 14 . The outputs are also connected to pressure relief valves 42 , 44 , which are common to the tank 42 .

The flow control valve 28 is in connection with the throttle 30 z. B. adjusted so that an amount of 35 liters per minute is passed through.

In FIG. 2, the valve 20 1 is shown in FIG. Shown in detail. The housing 24 consists of two sections 46 , 48 which are arranged in series and are connected to each other by means not shown. They form a continuous, axial, multiply stepped bore 50 for a flow channel from the pump 10 to the control valve arrangement 12 according to FIG. 1. A first bore section is formed by a cylindrical insert 52 , which is inserted into the section 48 from above and is not designated via Seals ge compared to sections 46 and 48 is sealed. This bore section is designated 54 . This is followed by a larger diameter bore section 56 , which is followed by a bore section 58 which has the same diameter as the drilling section 54 . At the bore section 58 is followed by a bore section 60 and to this a bore section 62 , which is connected to the outlet of the pump 10 . In the bore 50 , a spool 62 is slidably movable, which is accordingly the aforementioned bore sections with corresponding piston sections verses. It has a radial collar 64 provided with a seal, which is somewhat shorter than the length of the bore section 56 . The movement of the piston slide 62 is therefore limited by the insert 52 and the collar formed by the bore section 58 . The spool 62 is biased downward by a spring 65 . The bore sections 60 , 62 form a sealing edge 66 for a seat 68 at the end of the piston slide 62 . This seat surface is provided with millings not shown and shown in such a way that when the seat surface 68 is lifted from the edge 66 , a larger flow cross-section gradually arises.

Since the lower section of the piston slide 62 has a smaller diameter than the bore section 60 , an annular chamber 70 is formed, which has radial bores. 72 covered in the hollow spool 62 . The upwardly open axial channel 74 in the piston slide 62 is permanently connected to the flow channel 50 and the latter with an outlet opening 75 , which leads to the control valve arrangement 12 with the line 22 ( FIG. 1).

An annular chamber 76 is formed between the insert 52 and the collar 64 of the piston slide 62 , with a control surface 78 on the collar 64 facing it. On the opposite side of the federal government 64 there is another control surface 80 . The control surface 80 facing annular space 82 is continuously connected via a throttle opening 84 to the channel 74 in the piston slide 62 . The control surfaces 78 , 80 are the same size.

A control surface 85 is formed from the closed end of the spool 62 . A transverse bore 86 is formed in the housing 24 in the direction of flow in front of the sealing edge 66 and is connected to the line 26 according to FIG. 1. It should also be mentioned that the size of the control surface 85 is somewhat smaller than that of the control surface 78 . The latter is approximately 1.2 times the area 85 .

The operation of the device described is as follows. In the neutral position of both control valve arrangements 12 and 16 , the pump 10 delivers liquid through the control valve arrangement 12 to the tank 42 . At the same time, a small amount of liquid is conveyed via the current regulator 28 , 30 and the lines 38 and 40 to the tank 42 . The valve slide 62 is in the open position due to the flow pressure of the pump 10 . If a main consumer is actuated via the control valve arrangement 12 , the liquid flows from the line 22 via the control valve arrangement 12 to the consumer without anything else changing in the state described. The performance of the pump 10 is adjusted by a known regulating or control system.

Is z. B. when the control valve arrangement 12 is not actuated, the control valve 16 is actuated, the line 26 is now connected to a supply line to the secondary consumer 14 , while the other line to the consumer 14 is connected to the line 40 . There is a pressure transmission on line 32 and thus to the control chamber 56 . The piston slide 62 is gradually brought partially into the closed position, which increases the pressure in the line until the necessary operating pressure is applied to the secondary consumer 14 . The flow controller 28 , 30 ensures that the predetermined amount is conveyed to the consumer 14 . The valve 12 is thus a "preload valve" which, regardless of the pressure at the inlet, ensures that the consumer 14 is supplied with the desired amount of fluid under the desired pressure.

As can be seen in Fig. 2, the axial length of the annular space is dimensioned such that even when the piston valve 62 is open, liquid flows against the upper wall of the ring 70 in FIG. 2 and thereby experiences a calming upon changes, in particular accelerations. The dynamic pressure influence is thus reduced.

The throttle bore 84 ensures that the pressure in the channel 74 always acts on the control surface 80 . This provides security against undesired closing of the spool 62 , because the pressure on this control surface is counter to the effect on the control surface 78 . A sudden pressure increase in the channel 74 , which comes from the main consumer side, is at least partially compensated for in its effect in the closing direction by the force on the control surface 80 .

Additional safety can also be obtained by connecting a safety valve 88 to a point behind the throttle 36 , as shown in FIG. 1. Referring to Fig. 1 it may be noted, moreover, that the baffles 34, 36 the same cross-section can ben ha.

Claims (9)

1. Hydraulic device with a controllable pump for supplying a first and a second consumer by a controllable pump, in which each consumer is preceded by a control valve, characterized in that in the flow path ( 22 ) to a first consumer in front of the associated control valve ( 12 ) A first flow control valve ( 20 ) is arranged with a valve member ( 62 ) which, in the open position, establishes a connection between the pump ( 10 ) and the consumer via the control valve ( 12 ) and has a first control surface ( 85 ) which is compatible with the outlet pressure of the Pump ( 10 ) is acted upon and has a second oppositely directed control surface ( 78 ) that on the upstream side of the first flow control valve ( 20 ) a second flow control valve ( 28 , 30 ) is connected to the pump ( 10 ), the output of which is connected to the second control valve ( 16 ) and with the second control surface ( 78 ) in connection, the second control surface ( 78 ) being the same big as the first or bigger. 2. Apparatus according to claim 1, characterized in that between the associated with the associated control valve ( 16 ) output of the second flow control valve and the connection ( 32 ) to the second control surface ( 78 ) a throttle ( 36 ) is arranged and in the flow direction behind the throttle ( 38 ) there is a connection to the control valve ( 16 ) which, in the neutral position of the second control valve ( 16 ), is connected to a tank ( 42 ) of the hydraulic device. 3. Device according to one of claims 1 or 2, characterized in that he ste flow control valve ( 20 ) as a valve member ( 62 ) has a spool which cooperates with an upstream end portion with a seat edge ( 66 ) of a valve housing ( 24 ), wherein the end surface ( 85 ) represents the first control surface and the end section has depressions or the like to improve the control property and the end section is surrounded by an annular space ( 70 ) which has at least one radial bore ( 72 ) in the piston slide ( 62 ) with an axial Channel ( 74 ) is connected within the spool, which in turn is in constant communication with the outlet ( 75 ) of the first flow control valve ( 20 ). 4. The device according to claim 3, characterized in that the annular space ( 70 ) has an axial extent that the ra diale bore ( 72 ) is still sufficiently covered when the piston valve ( 62 ) is fully open. 5. Device according to one of claims 3 to 4, characterized in that the second control surface ( 78 ) on a radial collar ( 64 ) of the piston valve ( 62 ) is formed, which in an enlarged bore section ( 56 ) of the valve housing ( 24 ) can be moved from sealed. 6. Device according to one of claims 3 to 5, characterized in that the piston slide ( 62 ) on both sides of the collar ( 64 ) has sections with the same outer diameter. 7. Device according to one of claims 3 to 6, characterized in that a third control surface ( 80 ) on the piston slide ( 62 ) is formed, which is rectified with the first control surface ( 85 ) and via a throttle bore ( 84 ) with the channel ( 74 ) in the piston slide ( 62 ) is connected. 8. Apparatus according to claim 5 and 7, characterized in that the third control surface ( 80 ) on the first control surface ( 78 ) opposite side on the collar ( 64 ) is provided. 9. Device according to one of claims 1 to 8, characterized in that a pressure relief valve ( 88 ) is connected in the flow direction behind the throttle ( 36 ).