Tamping assembly for a track tamping machine

Abstract

A tamping assembly (1) for a track tamping machine is proposed comprising tamping tool pairs (3), which are arranged on a girder (7) guided vertically adjustable in a tamping assembly frame and are formed as swing arms, and the lower tamping pick ends (10) of which intended for plunging into a ballast bed (4) are drivable using an oscillation drive and are hydraulically closable toward one another, wherein a hydraulic cylinder (11) and possibly a distance sensor (7) for determining the hydraulic cylinder position are associated with each of the tamping tools (3) of a tamping tool pair, and the hydraulic cylinders (11) form both the linear closing drive and also the oscillation drive of the tamping tools (3), and wherein electrohydraulic valves (25) are provided for actuation of the hydraulic cylinders (11), which comprise a mechanical hydraulic cylinder actuation valve part (12) and an associated valve electronic unit (13). To provide advantageous construction conditions, it is proposed that the valve electronic unit (13) is mounted in a vibration-damped manner by means of vibration dampers (D) with respect to the hydraulic cylinder (11) and/or the mechanical hydraulic cylinder actuation valve part (12).

Claims

1. A tamping assembly for a track tamping machine, said tamping assembly comprising: tamping tool pairs of tamping tools arranged on a girder that is guided so as to be vertically adjustable in a tamping assembly frame and formed as swing arms; and the tamping tool pairs having lower tamping pick ends configured to be plunged into a ballast bed drivable using an oscillation drive and hydraulically closable toward one another; wherein a hydraulic cylinder associated with each of the tamping tools of a tamping tool pair, and the hydraulic cylinders form both a linear closing drive hydraulically closing the tamping pick ends toward one another and also an oscillation drive driving the tamping tools; and wherein electrohydraulic valves actuate the hydraulic cylinders, wherein the electrohydraulic valves each comprise a mechanical hydraulic cylinder actuation valve part and an associated valve electronic unit, wherein the valve electronic unit is mounted using vibration dampers so as to be vibration-damped with respect to the hydraulic cylinder or the mechanical hydraulic cylinder actuation valve part; and wherein the mechanical hydraulic cylinder actuation valve part is arranged so as to be vibration-damped on the hydraulic cylinder using the vibration dampers.

2. The tamping assembly according to claim 1, wherein both the valve electronic unit and the mechanical hydraulic cylinder actuation valve part are mounted so as to be vibration-damped with respect to the hydraulic cylinder using said vibration dampers.

3. The tamping assembly according to claim 2 wherein the valve electronic unit is arranged spaced apart from the hydraulic cylinder.

4. The tamping assembly according to claim 3 wherein the valve electronic unit is arranged so as to be vibration-damped on the mechanical hydraulic cylinder actuation valve part using the vibration dampers.

5. The tamping assembly according to claim 1, wherein the valve electronic unit is arranged spaced apart from the hydraulic cylinder.

6. The tamping assembly according to claim 5 wherein a distance sensor determines positions of the hydraulic cylinder position.

7. The tamping assembly according to claim 1, wherein a hydraulic accumulator is arranged in a hydraulic pressure supply line to the mechanical hydraulic cylinder actuation valve part.

8. The tamping assembly according to claim 1, wherein a hydraulic accumulator is installed in a hydraulic tank return line from the mechanical hydraulic cylinder actuation valve part.

9. The tamping assembly according to claim 1 wherein a distance sensor determines positions of the hydraulic cylinder position.

10. The tamping assembly according to claim 1 wherein both the valve electronic unit and the mechanical hydraulic cylinder actuation valve part are arranged spaced apart from the hydraulic cylinder.

11. The tamping assembly according to claim 1, wherein the valve electronic unit is arranged so as to be vibration-damped on the mechanical hydraulic cylinder actuation valve part using the vibration dampers.

12. A tamping assembly for a track tamping machine, said tamping assembly comprising: tamping tool pairs of tamping tools arranged on a girder that is guided so as to be vertically adjustable in a tamping assembly frame and formed as swing arms; and the tamping tool pairs having lower tamping pick ends configured to be plunged into a ballast bed drivable using an oscillation drive and hydraulically closable toward one another; wherein a hydraulic cylinder associated with each of the tamping tools of a tamping tool pair, and the hydraulic cylinders form both a linear closing drive hydraulically closing the tamping pick ends toward one another and also an oscillation drive driving the tamping tools; and wherein electrohydraulic valves are actuate the hydraulic cylinders, wherein the electrohydraulic valves each comprise a mechanical hydraulic cylinder actuation valve part and an associated valve electronic unit, wherein the valve electronic unit is mounted using vibration dampers so as to be vibration-damped with respect to the hydraulic cylinder or the mechanical hydraulic cylinder actuation valve part; and wherein the valve electronic unit is arranged so as to be vibration-damped on the mechanical hydraulic cylinder actuation valve part using the vibration dampers.

13. The tamping assembly according to claim 12, wherein both the valve electronic unit and the mechanical hydraulic cylinder actuation valve part are mounted so as to be vibration-damped with respect to the hydraulic cylinder using said vibration dampers.

14. The tamping assembly according to claim 12, wherein the valve electronic unit is arranged spaced apart from the hydraulic cylinder.

15. The tamping assembly according to claim 13, wherein the valve electronic unit is arranged spaced apart from the hydraulic cylinder.

16. The tamping assembly according to claim 12, wherein a hydraulic accumulator is arranged in a hydraulic pressure supply line to the mechanical hydraulic cylinder actuation valve part.

17. The tamping assembly according to claim 12, wherein a hydraulic accumulator is installed in a hydraulic tank return line from the mechanical hydraulic cylinder actuation valve part.

18. The tamping assembly according to claim 12 wherein a distance sensor determines positions of the hydraulic cylinder position.

19. A tamping assembly for a track tamping machine, said tamping assembly comprising: tamping tool pairs of tamping tools arranged on a girder that is guided so as to be vertically adjustable in a tamping assembly frame and formed as swing arms; and the tamping tool pairs having lower tamping pick ends configured to be plunged into a ballast bed drivable using an oscillation drive and hydraulically closable toward one another; wherein a hydraulic cylinder associated with each of the tamping tools of a tamping tool pair, and the hydraulic cylinders form both a linear closing drive hydraulically closing the tamping pick ends toward one another and also an oscillation drive driving the tamping tools; and wherein electrohydraulic valves are actuate the hydraulic cylinders, wherein the electrohydraulic valves each comprise a mechanical hydraulic cylinder actuation valve part and an associated valve electronic unit, wherein the valve electronic unit is mounted using vibration dampers so as to be vibration-damped with respect to the hydraulic cylinder or the mechanical hydraulic cylinder actuation valve part; and wherein the valve electronic unit is mounted using said vibration dampers so as to be vibration-damped with respect to both the hydraulic cylinder and the mechanical hydraulic cylinder actuation valve part.

Description

BRIEF DESCRIPTION OF THE INVENTION

(1) The subject matter of the invention is illustrated by way of example in the drawings. In the figures

(2) FIG. 1 schematically shows a fully hydraulic tamping drive in a side view in partial section,

(3) FIG. 2 shows a schematic diagram of a tamping assembly having fully hydraulic tamping drive, and

(4) FIG. 3 shows a further schematic diagram of a tamping assembly having fully hydraulic tamping drive.

WAYS OF EMBODYING THE INVENTION

(5) FIG. 1 shows a fully hydraulic linear tamping drive. The hydraulic cylinder 11 has boreholes embedded in the cylinder body, which function as hydraulic supply lines 20 and are supplied directly from the attached valve 25 via connections A, B. Pressurized hydraulic fluid is supplied coming from a hydraulic pump via a hydraulic pressure supply line P to the hydraulic valve 25 and is returned back to a hydraulic tank via a hydraulic tank return line T. A hydraulic accumulator S is arranged in the hydraulic pressure supply line P to the mechanical hydraulic cylinder actuation valve part 12, and also in the hydraulic tank return line T.

(6) A distance sensor 17 is integrated into the hydraulic cylinder 11. An embodiment as an inductive distance sensor is shown here, wherein a position magnet 24 is provided, via which the deflection of the piston 21 is measured. If the cylinder chamber 23 is subjected to pressure P via the connection B, the piston moves to the left. If the pressure application of the piston via the valve 25 changes to the connection A, the piston 21 then moves to the other side. The valve electronic unit (13) is mounted in a vibration-damped manner on the mechanical hydraulic cylinder actuation valve part 12 via vibration dampers (D).

(7) FIG. 2 schematically shows a tamping assembly 1. The tamping assembly 1 for a track tamping machine comprises a tamping tool pair 3, which is arranged on a girder 7 and is formed as swing arms, and the lower tamping pick ends 10 of which intended for plunging into a ballast bed 4 are drivable using an oscillation drive and are hydraulically closable toward one another. A hydraulic cylinder 11 and possibly a distance sensor 17 for determining the hydraulic cylinder position are associated with each of the tamping tools 3 of a tamping tool pair. The distance sensor can also be omitted, however. The hydraulic cylinders 11 form both the linear closing drive and also the oscillation drive of the tamping tools 3. Electrohydraulic valves are provided for actuation of the hydraulic cylinders 11, which comprise a mechanical hydraulic cylinder actuation valve part 12 and an associated valve electronic unit 13. The valve electronic unit 13 is mounted in a vibration-damped manner by means of vibration dampers D with respect to the hydraulic cylinder 11 and/or the mechanical hydraulic cylinder actuation valve part 12. The vibration damper D is indicated as a rubber-elastic bearing in the exemplary embodiment.

(8) During the tamping, the tamping picks plunge into the ballast 4 of a track 1 and compact the ballast 4 under the sleepers 2. The sleepers 2 are fastened on the rails 6. The tamping arms 3 are articulated on the tamping box 7. The tamping box 7 is moved up and down on vertical guides 8 via a drive 9. In the figure, according to the invention, the mechanical hydraulic cylinder actuation valve part 12 is constructed separately from the shock-sensitive valve electronic unit 13. A control and regulation electronic unit 14 is connected to the distance sensors 17 via electrical connecting lines 16. In addition, the valve electronic parts 13 are actuated via the control lines 15. The control valve parts 12 which are directly in the special cylinder 11 are supplied using the pressure line P and the tank line T.

(9) FIG. 3 shows, according to the invention, a hydraulic cylinder 11 shown schematically in section, which is connected via the hydraulic lines A and B to a separate control valve 25 installed in a vibration-resistant manner. The control valve 25 is supplied via the pressure line P and returns the oil into the tank via the tank line T. The pressure peaks on the pressure lines and tank lines are reduced using the hydraulic pressure accumulators S constructed according to the invention.