EP1067296A1 - Electrohydraulic lifting module - Google Patents

Abstract

The lifting module has an electric motor-driven supply pump (P) which can be operated in supply and energy-saving modes and which can be connected selectively to pressure supply lines (5,15) of at least one load (VH) for a main lifting function and at least one load (VN) for an auxiliary function. The auxiliary line (8) from the main function load via the pump to the tank is blocked in the reverse flow direction; the auxiliary function load can be operated even in the pump's energy-saving mode. There is only one supply pump and the auxiliary function load can be actuated in energy-saving mode with at least some of the pressure from the main function load via the auxiliary line and by the medium displaced by the supply pump.

Description

The invention relates to an electro-hydraulic lifting module in the preamble of Claim 1 specified type.

With self-driving industrial trucks, an important aspect is with the electric To use energy sparingly or a load-related pressure potential of the hydraulic To use pressure medium for the recovery of electrical energy. Modern Industrial trucks contain a speed-adjustable supply pump, which by is driven by an electric motor. A load-related pressure potential of the pressure medium is used for energy recovery by the supply pump Electric motor drives as a generator. The electrical energy obtained is transferred to the Battery returned. For industrial trucks such as reach trucks, comes for energy recovery e.g. the consumer of the main lifting function in question. However, such an industrial truck often also contains at least one consumer for a secondary function, a reach truck for example the so-called Initial stroke cylinder, which also during the energy saving mode of the supply pump should be operable. With a known in practice by prior use This type of lifting module is a second supply pump for actuation provided by the consumer of the secondary function. This additional supply pump is expensive. In order to be able to control the secondary function, there is also the hydraulic one Control circuit complex. This is a disadvantage due to energy recovery or the saving is not outweighed.

In practice, it is another solution with only a single supply pump known, but in the energy-saving mode of the pump is not controlled Supplementary function is possible. This solution is structurally little complex and cheaper than the solution with two pumps, but disadvantageous because the reach truck's initial lift cylinder is not extendable when the main lift cylinder retracts and the pump releases energy.

In an electrohydraulic lifting module known from EP 0 669 281 A for a Industrial truck with a mast is provided a single pump, which in the Lowering operation of the main consumer in a monitored by a pressure compensator Secondary line drives a generator. To supply a secondary function in Lowering pressure medium already in a common control valve device for everyone Redirected consumers without generating electricity from the energy available in lowering mode produce. Of the secondary consumer then supplied with excess, not processed Pressure medium is discharged directly to the tank.

In an electrohydraulic lifting module according to JP 0 22 15 700 (JP 01034627) a pilot operated bypass valve between a return connection to the pump and the tank provided to prevent depending on the lowering pressure when lowering displaced pressure medium is pressed again by the pump.

In a lifting module according to GB 13 65 511, the main consumer is in lowering mode with energy recovery no secondary consumers with the displaced Pressure medium supplied.

Further prior art is contained in EP 0 908 413 A and DE 92 18 483 U.

The invention has for its object an electro-hydraulic lifting module type mentioned with an efficient energy saving mode of the supply pump to accomplish.

The object is achieved according to the invention with the features of claim 1 solved.

In energy-saving mode, there is a controlled one when the main consumer moves in under load Operation of the consumer of the secondary function possible, in which from the Consumers for the main lifting function displaced pressure medium to work again the secondary function is used in the consumer. This is done in one Extent that depends on the need for energy recovery, or at reduced Current consumption of the electric motor means a saving effect. Because at least it will proportionally displaced pressure medium of the consumer of the main function is used, to achieve the pressure or the quantity for the consumer of the secondary function and also to recover energy. This is displaced by the main consumer when lowering In any case, pressure medium is supplied via the secondary line first by the supply pump pressed, which generates energy with sufficient pressure potential. If the potential of the displaced pressure medium is not sufficient for the secondary function, the supply pump intervenes. Is not a consumer of a secondary function to press, then the total pressure difference between the pressure level of the consumer of the main lifting function and the tank pressure level for energy recovery used. Only a single supply pump enables a relative simple hydraulic control circuit with a special connection anyway for the functions of the necessary components and thus a structurally simple electrohydraulic Lifting module, which is particularly useful for reach trucks is. The electric motor of the only supply pump is in its energy saving mode used on the control side so that it either supplies electricity as a generator or additionally draws electricity.

It is useful to connect the pressure supply lines to the consumer Connect the outputs of a three-way proportional current control device and the Control valve component for lifting the consumer of the main lifting function downstream of the three-way proportional flow control device and in the direct connection to arrange to the tank. In itself, the control valve component is the lifting process of the consumer controlled the main lifting function when the supply pump is driven, in energy saving mode the supply pump divides the three-way proportional current control device to the consumer of the secondary function the required amount too.

So that the control intervention of the three-way proportional current control device in energy-saving mode the supply pump exactly according to the needs of the consumer the secondary function takes place, the first and second control pressures for the pressure compensator the current control device from the pressure supply line for the consumer tapped the secondary function, so that here the pressure conditions in the direct connection to the tank, in which direct connection the control valve component to lift the consumer of the main lifting function, have no influence. This allows smooth transitions between the energy saving mode and control the supply mode.

Two interconnection principles can be considered for this function. At a simple directional or directional control valve for the consumer of the secondary function places the proportional measuring orifice in the pressure supply line of this consumer exactly the required pressure difference depending on demand, the held by the pressure compensator for supplying the auxiliary function of the consumer becomes. In the second case, the at least one consumer of the secondary function controlled by a proportional control valve, downstream of the proportional directional control valve a representative load pressure as the first control pressure for the pressure compensator is tapped. This saves a separate proportional measuring orifice. It lies on hand that several consumers for auxiliary functions each with one Proportional control valve can be controlled and then the highest load pressure when the first control pressure is supplied to the pressure compensator, expediently via shuttle valve devices.

It is favorable to the pressure supply line to the consumer of the main lifting function from a crossing point that is upstream of the control valve component in the direct connection to the tank. That of the three-way proportional current control device Allocated pressure medium then increases the way this consumer, where appropriate also the consumer for the Auxiliary function remains controllable.

Alternatively, the crossing point at which the pressure supply line to the Consumer of the main lifting function is connected, even in the direct connection Control valve component arranged to the tank (position: lifting) his.

If the crossing point is upstream of the control valve component, then can this control valve component is a simple 2/2-way or directional control valve or, if appropriate, a 2/2 proportional control valve. In the former case can provide the main lifting function for a clean ramp control of the consumer the speed control of the supply pump can be used. In the second case can control a clean ramp function via the proportional directional control valve without the supply pump having to make any significant contribution.

The crossing point is located in the direct connection to the tank Control valve component, it should be expediently structurally simple 3/2-way control valve in black / white design (two switch positions: for Tank open or open to the consumer) or a one that controls a ramp function 3/2 proportional directional control valve.

Because of such industrial trucks and especially the main lifting function, high safety requirements be put, it is appropriate to the consumer of the main lifting function secured by a lowering brake valve device.

To also when the consumer is adjusting the main lifting function in the lowering direction The control valve component should be able to control a clean ramp function be a 2/2 proportional directional control valve in the secondary line. However, here even a simple 2/2-black / white control valve is sufficient, because the flow control device may be necessary and / or the control valve component in the direct connection at Participate in sinks.

To keep the load of the main lifting function reliable, it should be in the pressure supply line a check valve is arranged for the consumer of the main lifting function become.

The system pressure is - as usual - through a pressure relief valve on the pressure side of the supply pump. However, is also useful for the possibly lower pressure level of the consumer of the secondary function a pressure protection provided, namely by a second either between the pressure supply line intended for the consumer of the secondary function and the tank, then set lower pressure relief valve, or one in the control line for the first control pressure of the pressure compensator positioned pressure relief valve.

To ensure that the three-way proportional flow control device when not operated of the consumer of the secondary function reliably blocks the second Pressure relief valve through a relief line containing a throttle bypassed the first control pressure. The throttle in the discharge line is dimensioned that even the pilot valve's first control pressure is low is reported.

Fig. 1

ein Blockdiagramm einer ersten Ausführungsform eines Hubmoduls in drucklosem Zustand,

Fig. 2

ein Blockdiagramm einer weiteren Ausführungsform, wobei in Fig. 2 die in Fig. 1 nur symbolisch dargestellte Dreiwege-Proportional-Stromregeleinrichtung im Detail angedeutet ist,

Fig. 3

ein Blockschaltbild einer weiteren Ausführungsform eines Hubmoduls,

Fig. 4

eins Blockdiagramm einer weiteren Ausführungsform eines Hubmoduls,

Fig. 5

einen Teil einer weiteren Ausführungsform, und

Fig. 6

einen Teil einer noch weiteren Ausführungsform eines solchen Hubmoduls.

Embodiments of the subject matter of the invention are explained with reference to the drawing. Show it:

Fig. 1

2 shows a block diagram of a first embodiment of a lifting module in the depressurized state,

Fig. 2

3 shows a block diagram of a further embodiment, the three-way proportional current control device, which is only symbolically shown in FIG. 1, being indicated in detail in FIG. 2,

Fig. 3

2 shows a block diagram of a further embodiment of a lifting module,

Fig. 4

1 shows a block diagram of a further embodiment of a lifting module,

Fig. 5

part of a further embodiment, and

Fig. 6

a part of yet another embodiment of such a lifting module.

An electrohydraulic lifting module S in FIG. 1, for example for an industrial truck like a reach truck, not shown, allows one for one Main lifting function of a load F responsible consumer VH and at least one Control consumer VN for a secondary function simultaneously or separately. The Consumer VH is, for example, the lifting cylinder, while the consumer. VN e.g. is the so-called initial lift cylinder. It is a single supply pump P provided for lifting control by a speed-controllable electric motor M is driven. This supply pump P is in addition to the supply mode for energy recovery (electrical energy) or energy saving in one Energy saving mode operable. This means that the supply pump P with pressure medium displaced from the consumer VH, the electric motor M as a generator drives and generates energy, or the electric motor M just absorbs the energy, the to actuate the consumer VN in the displaced pressure medium Consumer VH does not exist. Is the energy in the displaced pressure medium sufficient? for the secondary function, then electrical energy is recovered or needed despite no electrical energy is supplied to the secondary function.

A line 1 leads in the lifting module core area HM (dash-dotted line) from the pressure side of the supply pump P to the input of a three-way proportional flow control device SR adjustable by a proportional magnet m1p is. There is a direct connection to a first oiling side of the flow control device SR 2 connected to tank T, while on the other oil side a pressure supply line 15 is connected to the at least one consumer VN or its directional or directional control valve W. The system pressure is indicated by a Pressure relief valve 3 monitored. At a crossing point 4 in the direct connection 2, a pressure supply line 5 is connected to the consumer VH, in which is arranged in the backflow direction blocking check valve 6. Between the crossing point 4 and the tank T in the direct connection 2 is a control valve component 10 arranged for lifting control of the consumer VH, which in the Embodiment of FIG. 1 designed as a 2/2-way directional control valve 30 and is equipped with a proportional magnet m3p for adjustment. Of the Consumer VN leads a return line 11 to the tank T. Between the pressure supply line 15 and the return line 11 is a second pressure relief valve 3a provided in a control line 12. The second pressure relief valve 3a is bypassed by a control line loop 13, in which a throttle point 14 is provided is. The second pressure relief valve 3a and the control line 12 are shown here as Appropriate option provided.

The consumer VH for the main lifting function is by a so-called lowering brake B monitors that also for a limitation of the maximum outflow at Lowering is responsible. At an intersection 7 of the pressure supply line 5 branches off a secondary line 8, in which a further control valve component 9 for the Lowering control is included, namely a 2/2 proportional directional control valve with a Proportional magnets m2p. The secondary line 8 leads between one in the direction to the tank T blocking check valve R and the supply pump P to Suction side of the supply pump 3.

Each directional control valve W (in FIG. 1 a simple directional or directional control valve) of a consumer VN for the secondary function is to the pressure supply line 15 connected to a pressure line 16, and to the return line 11 with a Return line 17.

Function:

In the basic position shown in FIG. 1, the consumer VH is against the load F. lift without actuating a consumer VN, then when the supply pump is driven P the control valve component 10 for lifting from the open position adjusted in the direction of the shut-off position (by means of the proportional magnet m3p), so that 5 pressure builds up in the pressure supply line. The current control device SR only directs the pressure and the quantity to crossing point 4. The Control valve component 9 remains in the shut-off position shown. The lowering brake B is bypassed by the opening check valve; the consumer VH extends in the lifting direction. The control takes place depending on the current supply of the proportional magnet m3p; if necessary, the speed of the electric motor M used to control a clean ramp function and the desired one Speed. If a secondary function is controlled at the same time, then the necessary pressure medium in the pressure supply line 15 through Energizing the proportional magnet m1p provided, where appropriate then the speed of the electric motor M is increased.

If the load F is to be stopped, then the control valve component 10 moves in the direction again adjusted to the open position and, if no secondary function can be controlled the electric motor M must also be switched off. Is still a secondary function too control, this can be done by controlling the speed of the supply pump P and The proportional magnet m1p is energized. If necessary, it will also held the control valve component 10 in the shut-off position.

Is the consumer VH lower under the load F, and without one at the same time Secondary function to control, then the electric motor M remains switched off, opens the Flow control device SR only at crossing point 4, the control valve component 10 held in the open position, and becomes the control valve component 9 from the shut-off position shown in the direction of the passage position adjusted, using the proportional magnet m2p. Because the check valve R then blocks, the pressure medium displaced by the secondary line 8 pressed by the supply pump P, which acts as the hydraulic motor, the electric motor M drives as a generator for energy recovery. The supply pump P passing pressure medium flows through line 1, the flow control device SR and the direct connection 2 via the control valve component 10 to the tank T.

The supply pump P is also during this energy recovery mode to control a secondary function, the proportional magnet m1p becomes corresponding energized to lead the required amount into the pressure supply line 15, from which the consumer VN via his directional or directional control valve W is operated. Pressure medium displaced from a consumer VN flows over the Return line 17 and the return line 11 directly to the tank. With this control the Secondary function, it is not necessary to drive the supply pump P as long the pressure potential in the displaced pressure medium is sufficient. If not If so, the supply pump P intervenes.

The embodiment of FIG. 2 differs from that of FIG. 1 in that the control valve component 10 for the lifting control is a simple 2/2-way control valve 31 with a simple switching magnet m3. To still be one clean lifting control of the consumer VH (appropriate ramp function) achieve, the speed control of the electric motor M is used. The further construction is equal to. The three-way proportional current control device is different from the illustration in FIG. 1 SR shown in detail, with a pressure compensator D and one downstream of the pressure compensator D in the pressure supply line 15 the proportional magnet m1p adjustable measuring aperture MB. The one on the orifice plate MB set pressure difference holding pressure compensator D is from first and second control pressures and a control spring 20 set and holds the set Pressure difference even with pressure fluctuations in line 1 and / or 15. The first Control pressure acts together with the control spring 20 in the opening direction of the pressure compensator D from line 1 to pressure supply line 15. The first control pressure comes from a control line 12a, which from the at the intersection 18 of the Pressure supply line 15 branching control line 12 with the second pressure relief valve 3a branches. The crossing point 18 is located downstream of the Measuring aperture MB. The second control pressure is upstream at a crossing point 21 the measuring orifice MB tapped in the pressure supply line 15 via a control line 22 transferred to the other side of the pressure compensator D and acts on it in the opening direction from the pressure line 1 to the direct connection 2 to the tank T. Da the first and second control pressures can only be tapped in the circle of the secondary function, have the pressure ratios in lines 1, 2 or in the pressure supply line 5 to the consumer VH has no influence on the control intervention of the current control device SR. The line loop 13 with the throttle point 14, which will be narrower should, as a throttle point 19 in the control line 12a, serve to relieve the Control line 12a if the measuring orifice MB is adjusted to its shut-off position and no secondary function is to be controlled.

3 differs from the two aforementioned Embodiments in that the control valve component 10 for lifting control the crossing point 4 'between the direct connection 2 and the pressure supply line 5 contains and for this purpose as a 3/2-way control valve 32 without a proportional function and is formed with a switching magnet m3. Through the symbolism is shown that it is a 3/2-way seat valve, the check valve 6 replaced by the seat valve function 6 '.

Also the directional and directional control valves W of the consumer VN for the secondary functions are simple directional control valves without proportional function, each Consumer VN via working lines 23, 24 to the directional or directional control valve W is connected.

The function of FIG. 4 corresponds functionally to the embodiment of FIG. 2 with the control valve component designed as a simple 2/2-way control valve 31 10, which is adjustable by means of a switching magnet m3. In contrast to Current control device SR of FIG. 2 is the orifice plate required for the pressure compensator D. not included in the pressure supply line 15, but will be proportional adjustable orifice plate with a directional or directional control valve WP for the Consumer VN formed the secondary function, which is a proportional control valve with the Proportional magnet m1p (and, if necessary, a feed regulator, not shown). thanks of the proportional directional control valve WP results in the work line in question 23, 24 the first control pressure for the pressure compensator D, which is via the control line 12a transmitted and for example on a shuttle valve 25 between the Working lines 23, 24 is tapped. In the event that only one consumer VN is provided for a secondary function, the first control pressure from the shuttle valve 25 transmitted directly to the control line 12a via a control line 26. Are several VN consumers intended for secondary functions, then their control lines 26, 28 linked via at least one further shuttle valve 27, which each transmits the highest first control pressure into the control line 12a. The second control pressure 2, via the control line 22 from the pressure supply line 15 tapped.

In FIG. 5, as in FIG. 3, the control valve component 10 is for the lift control 3/2-way control valve of simple design with a solenoid m3. Indeed it is not a poppet valve, but a slide valve in which the crossing point 4 'to the pressure supply line 5 is also included.

In all embodiments, the control valve component 9 (sinks) could be in the secondary line 8 a simple 2/2 black and white directional control valve with a simple one Switch solenoids (without proportional function).

When lowering the consumer VH, energy can be recovered, if that Pressure potential is also sufficient for the actuation of the consumer VN. If not Case, energy is nevertheless saved because the supply pump P is only supplementary intervenes. Despite the energy saving or recovery, however, is the correct one Operation of the consumer VN of the single supply pump P ensured.

In Fig. 6, the control valve component 10 for lifting control is a 3/2 proportional directional control valve 34 with at least one proportional magnet m3p in slide construction and with a control function (indicated by the parallel lines).

Claims (14)

Electro-hydraulic lifting module (S), in particular for an industrial truck such as a reach truck, with a supply pump (P) which can be driven by an electric motor (M) and which can be operated in a supply mode and in an energy-saving mode, and to the optional pressure supply lines (5, 15 ) at least one consumer (VH) of a main lifting function and at least one consumer (VN) of a secondary function can be connected, with a secondary line (8) blocked in the backflow direction to the tank from the consumer (VH) of the main lifting function via the supply pump (P) to a direct connection (2 ) to the tank, whereby the consumer (VN) of the secondary function can also be operated in the energy-saving mode of the supply pump (P), characterized in that only a single supply pump (P) is provided, and that the consumer (VN) of the secondary function in energy-saving -Mode of the supply pump (P) at least partially with from the consumer (VH) the main lifting function with Dr uck via the secondary line (8) and pressure medium displaced by the supply pump (P). Lifting module according to claim 1, characterized in that a three-way proportional flow control device (SR) is provided on the pressure side of the supply pump (P), to which the pressure supply lines (5, 15) of all consumers (VH, VN) and the direct connection ( 2) are connected to the tank (T), and that a control valve component (10), which monitors the direct connection (2) to the tank and is arranged in the flow direction in the secondary line downstream of the three-way proportional flow control device (SR), is provided for lifting control of the main lifting function. Lifting module according to claim 2, characterized in that the three-way proportional flow control device (SR) has a pressure compensator (D) and a proportional measuring orifice (MB), that the pressure compensator in the opening direction to the pressure supply line (15) of the consumer (VN) of the secondary function a control spring (20) and a first control pressure downstream of the proportional orifice (MB) and in the opening direction to the pressure supply line (5) of the consumer (VH) of the main lifting function apply a second control pressure upstream of the proportional orifice (MB). Lifting module according to claim 3, characterized in that the proportional measuring orifice (MB) is arranged in the pressure supply line (15) of the consumer (VN) of the secondary function, and that a simple directional control valve (W) is provided for the consumer (VN). Lifting module according to claims 1 and 3, characterized in that a proportional directional control valve (WP) is provided for the consumer (VN) of the secondary function, and that the first control pressure is the load pressure of the consumer (VN) downstream of the proportional directional control valve (WP) is. Lifting module according to claim 1, characterized in that a control valve component (10) of the consumer (VH) of the main lifting function is provided in the direct connection (2) to the tank downstream of an intersection (4) from which the pressure supply line (5) to the consumer ( VH) of the main lifting function. Lifting module according to claim 1, characterized in that a control valve component (10) of the consumer (VH) of the main lifting function is provided in the direct connection (2) to the tank and contains a crossing point (4 ') from which the pressure supply line (5) to Consumer (VH) of the main lifting function. Lifting module according to claim 6, characterized in that the control valve component (10) is a 2/2 black / white directional control valve (31) or a 2/2 proportional directional control valve (30). Lifting module according to claim 7, characterized in that the control valve component (10) is a 3/2 black / white directional control valve (33) or a 3/2 proportional directional control valve (34). Lifting module according to claim 1, characterized in that the consumer (VH) of the main lifting function is secured by a lowering brake valve (B) which limits the maximum entry speed under load. Lifting module according to at least one of the preceding claims, characterized in that a 2/2-proportional directional control valve (9) or a 2/2 black / white directional control valve is provided in the secondary line (8) for lowering the consumption (VN). Lifting module according to claim 1, characterized in that, in addition to a pressure limiting valve (3) matched to the pressure level of the consumer (VH) of the main lifting function, downstream of the proportional flow control device (SR) there is a second pressure level, which may be lower for the consumer (VN) Side function coordinated pressure relief valve (3a) is provided. Lifting module according to claim 13, characterized in that the second pressure relief valve (3a) is provided between the pressure supply line (15) of the consumer (VN) for the secondary function and the tank (T) or is arranged in a control line (12, 12a) for the first control pressure is. Lifting module according to claims 12 or 13, characterized in that the second pressure relief valve (3a) to the tank (T) is bypassed by a relief line (13) containing a throttle point (14) for the first control pressure.

Images