DE2456265A1 - FILTER DEVICE FOR FLUID DRIVE - Google Patents

Description

Eglinski KG., Device technology, 59 Siegen, Fludersbach 130

Filter device for fluid drives

In the case of hydrostatic drives, pumps, motors, control and regulating devices and the additional devices such as Filters, storage tanks, tanks, etc. connected in open or closed circuits. The usual construction provides that the control valves are mounted on the power generation or control unit and according to the structural conditions long working lines connected to the working engine, e.g. a double-acting cylinder or a rotary piston engine are. The filtering of the medium flowing out of the working motor takes place - seen in the flow direction of the medium behind the control valve.

This known construction of hydrostatic drives has the disadvantage that only those present in the working medium Impurities such as abrasion occurring in the engine and production residues present in this and the contamination are filtered out that reach the filter with the working medium flowing from the engine, the pipe volume exceeds the Working lines the volume of the working medium flowing into or out of the engine, there is no longer any filtering, and there is a risk that the contaminants will destroy the piston and rod seals of the engine.

The invention is based on the object, in hydro-

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static drives a perfect filtering of the hydraulic motor to reach the outflowing working medium.

According to the invention, this object is essentially achieved a filter device for fluid drives, in particular double-acting fluid motors, solved with a filter that is arranged in the immediate area of the fluid motor, a filter supply line, each via a working line and a Shuttle valve is connected to the two working spaces of the double-acting cylinder, the shuttle valves in opposite directions work and are connected to a directional control valve via a connecting line, and a filter discharge that is via One connection line and one check valve each to the connection lines between the directional control valve and the two shuttle valves is connected, the check valves working in opposite directions.

According to a further feature of the invention is the filter device attached to the fluid motor and between the working line and connecting line is a bypass line for the Filter arranged with an overflow valve.

In addition, the invention provides a differential pressure measuring device connected between the working line and the connecting line to the contamination indicator.

According to another feature of the invention is the filter control circuit with shuttle valves, check valves, bypass line with check valve and differential pressure measuring device arranged in a switching block, which is preferably designed as a filter head.

The filter device according to the invention enables a perfect Filtering of the operating medium for hydrostatic and pneumatic Drives with a single low pressure filter. Another

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The advantage of the invention is that the filter control circuit is arranged in a compact design in a switching block that circulates in the filter head or separately in the fluid can be built in.

Further details of the invention can be found in the following description of an exemplary embodiment shown in the drawing. Show it

Fig. 1 is a schematic representation of the circuit of a hydrostatic drive with the filter device according to the invention, while

Figure 2 illustrates the view of the filter of the present invention attached to a work engine.

The circuit according to FIG. 1 for a hydraulic motor 1, which as double-acting cylinder 2 is formed with a working piston 3 and separate working spaces 4, 5, has a Low pressure filter 6 for the working medium flowing off from the hydraulic motor 1 The filter supply line 7 is via a working line .8 and a shuttle valve 9 with the working chamber 4 of the Hydraulic motor 1 and via the working line 10 and the shuttle valve 11 connected to the working chamber 5 of the engine, the Weehselventile 9 * H working in opposite directions. The shuttle valves 9, 11 are each connected to a connecting line 12, 13 Directional valve 14 connected, which via a supply line 15 with it is connected to the pressure side of the feed pump 16 and via a discharge line 17 to the FüissigkertBb ehalt 18 for the working medium, for example oil. The filter derivative 19 is' over a Connection line 20 and a check valve 21 as well as the connection line 22 and the check valve 23 to the connection lines 12, 13 between the directional valve 14 and the changeover valve

tilen 9 »11 connected.

The filter supply line 7 and the discharge line 19 are one Bypass line 24 for the filter 6 with an overflow valve 25,

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and a differential pressure measuring device 26 is used for Measurement of the degree of contamination of the filter 6.

The operation of the filter device is as follows: The feed pump 16 sucks in the oil from the liquid container via the suction line 27 and conveys it via the supply line 15 to the directional control valve 1h. In position a of the directional control valve, 1 * 1, the pressure oil passes through the connecting line 12 and the shuttle valve 9, which closes the connection between the working line 8 and the feed line 7 of the filter 6, through the working line 8 into the working chamber 4 of the hydraulic motor 1 and moves the Piston in the direction of the arrow c. The oil displaced from the working space 5 of the hydraulic motor 1 flows through the working line 10 to the shuttle valve 11, which closes the connection between the working line 10 and the connecting line 13, and from there passes the supply line 7 through the filter 6, the connecting line 22, the opening Check valve 23, the connecting line 13 via the directional control valve 14 and the discharge line 17 back into the liquid container 18.

When the directional control valve lh is switched to switch position b, the pump 16 delivers the oil from the liquid container 18 via the suction line 27 and the supply line 15 through the connecting line 13 to the shuttle valve 11, which closes the connection between the working line 10 and the filter supply line 7, and arrives there Via the working line 10 into the working chamber 5 of the hydraulic motor 1 and moves the working piston 3 in the direction of arrow d. The oil in the working space h flows via the working line 8 and the shuttle valve 9 »which closes the connection between the working line 8 and the connecting line 12, via the filter feed line 7 through the filter 6 and from there via the filter discharge line 19 * the opening check valve 21, which Connection line 12, the Wegeven-

til l4 and the discharge line 17 back to the liquid container

The non-return valves 21, 23 working in opposite directions prevent an outflow of the pressure oil from the connecting lines 12, 13 to the filter 6.

As soon as the degree of contamination of the filter 6, which is indicated by the differential pressure measuring device 26, has reached a maximum permissible level, the filter is replaced. If the permissible degree of contamination of the filter 6 is exceeded, the transition valve 25 »opens and the oil flowing out of the hydraulic motor 1 passes via the bypass line 24, depending on the switching position of the valve I ¹ I, either via the connecting line 20 and the connecting line 12 or the connecting line 22 and the connecting line 13 and the discharge line 17 back into the liquid container 18.

Fig. 2 shows a practical embodiment of the filter device. The filter control circuit with the changeover valves 9, 11 »the check valves 21, 22, the bypass line 24 with overflow valve 25 and the differential pressure measuring device 26 is arranged in a switching block 28 which is in the FiI-t-head 29 of the filter 6 containing a filter cartridge 30 is installed. The switching block 28 is directly on the hydraulic motor 1 flanged so that the working lines 8, 10 are limited to a minimum length. If the filter is dirty 6, only the filter cartridge 30 with the filter insert needs to be be replaced.

The filter device can be used for both hydraulic and pneumatic working media.

Claims

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Claims (8)

74 356 Pü / A Claims - _x
ι I., - filter device for fluid drives, in particular double acting fluid motors, characterized in that the same a filter (6) which is arranged in the immediate area of the fluid motor (1), the filter feed line (7) over One working line (8, 10) and a shuttle valve (9, 11) each to the two working spaces (4, 5) of the double-acting cylinder (2) is connected, the shuttle valves (9 * 11) work in opposite directions and via a connecting line (12, 13) with a Directional valve (14) are connected and that the filter discharge line (19) each via a connecting line (20, 22) and a check valve (21,23) is connected to the connecting lines (12,13) between the directional valve (14) and the two shuttle valves (9,11), wherein the check valves (21,23) work in opposite directions. 2. Filter device according to claim 1, characterized in that the same (6) is attached to the fluid motor (1). 3. Filter device according to claim 1 and 2, characterized in that that the filter (6) is designed as a low-pressure filter. 4. Filter device according to one or more of claims 1 to 3, characterized by a bypass line (24) for the filter (6) with an overflow valve (25) between the working line (10) and connecting line (22). 5. Filter device according to one or more of the claims 1 to 4, characterized by a differential pressure measuring device connected between the working line (8) and the connecting line (20) (26). 6. Filter device according to one or more of claims 1 to 5, characterized in that the filter control circuit with shuttle valves (9, 11), check valves (21, 23), 609823/0130 Bypass line (24) with check valve (25) and differential pressure measuring device (26) is arranged in a switching block (28). 7. Pilterelnrichtung according to claim 6, characterized in that the switching block (28) installed in the filter head (29) is. 8. Filter device according to claim 6, characterized in that the switching block (28) installed separately from the filter (6) is. 60982 3/0130 Blank page