DE2203698A1 - HYDRAULIC TESTING MACHINE - Google Patents

Description

Carl Schenck Maschinenfabrik GmbH 2203698 17th January 1972

Hydraulic testing machine ,,

The invention relates to a hydraulic testing machine with cylinders for generating a dynamic alternating load and a static preload, each cylinder half of the preload cylinder a hydraulic accumulator that can be switched off when the drive is slow is assigned.

In testing technology, especially in materials testing, it is often desirable to use the test object with a dynamic A static preload can also be applied to alternating loads. A well-known testing machine with which this is accomplished consists of a hydraulic cylinder for generating the static preload, in which a piston slides. A Another hydraulic cylinder with associated piston is used to generate the dynamic alternating load and the two pistons are positively connected to each other.

In the case of a dynamic alternating load with a high frequency, the force-fit connection of the pistons generates rapid pressure surges in the preload cylinder, which ensure a proper Prevent the testing machine from working without additional equipment. Therefore there are pressure accumulators above and below the piston connected to the preload cylinder, which have the task of preventing the pressure surges mentioned, "with slow drive, i.e. with Generating a slowly changing test load by means of the preload cylinder, the accumulators are noticeable disturbing »

The invention has for its object to provide a testing machine of the type mentioned, in which it is possible to use the To change the memory effect during the slow drive.

BATH ORIGINAL

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According to the invention, this object is achieved in that the hydraulic accumulators provided with accumulator bladders with pressure accumulators or pressure generators (pressure converters) of a higher pressure can be connected to the to empty the hydraulic accumulator completely or partially.

In a further embodiment of the invention, the storage bladders of the pressure accumulator are connected to one or more storage bottles for a gas in such a way that the storage bladders can be filled from the storage bottles and emptied into them or into the open air. The connections between Storage bladders and storage bottles can be closed by valves and there are pressure gauges to determine the pressure provided in the store.

In a preferred embodiment of the invention the pressure in the storage bladders is generated by the pressure in the storage bottles during slow drive. When switching from slow to The hydraulic cylinder generating the static preload is operated quickly by a hydraulic unit with a additional pressure is applied which is large enough to completely or partially remove the gas from the accumulator bladders of the pressure accumulator to displace and then the valves mentioned are closed.

Another embodiment of the invention consists in that the pressure in the storage bladders is generated and maintained by a pressure intensifier. The intensifier is supplied from a storage bottle and driven, for example, with compressed air from the supply network. Ever According to the pressure conditions in the store and in the storage bottle, the pressure booster is designed so that he can promote in both or only one direction.

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When the accumulator with the drive pressure oil of the preload cylinder is filled, the contents of the storage bladders are compared to the overpressure in the storage bladders Storage bottles or conveyed into the storage bottle by the pressure intensifier. It is also possible to change the content to allow the storage bubbles to escape into the open.

In a third embodiment of the invention, the Storage bladders of the storage unit are connected to the storage bladders of a further storage unit. This further memory are pressurized with the aid of a hydraulic unit »

The three mentioned embodiments of the invention are shown as examples with reference to the schematic Figures 1-3 Show it:

1 shows an embodiment in which the pressure in the storage bladders depends on the pressure in storage bottles is produced,

Fig. 2 shows a further embodiment in which the Pressure is generated in the accumulator bladders by a pressure intensifier,

3 shows the third exemplary embodiment, in which the storage bladders each with the storage bladders two other memories are connected.

Only the pressure cylinder 1 generating the preload with the associated piston 2 and also of the testing machine is shown in the figures the hydraulic accumulator and the hydraulic devices required for explaining the invention are shown. On the cylinder 1 on both sides of the piston 2 pressure accumulators J5 and 4 are connected, which, if necessary, the means to act as a hydraulic accumulator at high frequency of the dynamic alternating load. Own the accumulators Storage bladders that are filled with a gas

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220369 ^ ·

can. If the accumulator bladders are filled with a gas of sufficiently high pressure, no pressurized oil can penetrate into the accumulator, so that the accumulator is practically blocked. The pressure in the storage bladders is generated by the storage bottles 5, 6, which can be connected to the storage bladders via valves "J, 8. The gas pressure in the storage bladders can be read off with the aid of the manometers 9, Io. It is also possible to to supply both storage bladders from just one storage bottle.

If the accumulators 3 * 4 · are to be effective for the pressure oil located in the cylinder 1, then the oil in the cylinder 1 is subjected to an additional pressure by a hydraulic unit 11. This is done via the hydraulic control valve 12. The additional pressure is that pushed back from the storage bubbles into the supply bottles the gas is · Are the storage bladders emptied completely or partially selected so large, which can be determined based on the ad to the pressure gauges 9 "Io , the valves ¹ J, 8 are closed and the additional pressure is switched off by closing the hydraulic valve 12. (If the valves f, 8 are closed at different times, an asymmetrical pressure state can be achieved in the accumulators 3 * ^) This means that the accumulators 3 * ^ for the pressure oil in cylinder 1 are opened "By closing the valves " J ₃ 8 At different pressures it is possible to optimally adapt the pressures in the accumulator bladders to the desired preload in cylinder 1. If, conversely, the accumulators 3 * 4 are to be ineffective for the pressure oil in the hydraulic cylinder 1, the valves Υ, 8 are opened Gas from the storage bottles penetrates into the storage bladders and the pressurized oil is displaced from the storage tanks 3j 4.

In the embodiment of the invention shown in FIG the arrangement and the nature of the memory 3, 4 are essentially the same as the embodiment shown in FIG. The gas pressure in the storage bladders is here however

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generated by a pressure intensifier 14, which is supplied from the storage bottle 5. The pressure booster 14 can, for example powered by compressed air from the supply network. By opening valves 18 and 16 or 17 and 15 and closing the valves 15 and 17 or 16 and 18 can Pressure booster 14 both from the storage bottle 5 in the Feed memory J5, 4 or in the opposite direction.

Should the memory 3, 4 for the pressure oil in cylinder 1 be effective are, the pressure booster 14 ·, the gas from the Storage bubbles in the storage bottle, whereby the pressurized oil can flow from cylinder 1 into storage 3 * 4 » If the pressure in the supply bottle 5 is less than the minimum Storage pressure, the transfer of the gas from the storage bladders into the storage bottle can be carried out solely by the Pressure of the oil in the cylinder 1 can be effected with the valve 17 open. In this case the valves 15, 16 and 18 can be omitted.

Conversely, if the blocking of the memory 5 * ^ is desired, promotes the pressure booster 14 takes the gas from the supply bottle 5 into the accumulator bladders 3 * 4, which removes the oil from the accumulators is displaced.

In the third embodiment shown in Figure J5 of the invention are the storage bladders of the memory J, 4 with each of the storage bladders is connected to a further storage tank 19 * 2o, Each interconnected pair of accumulator bladders contains a gas pressure that is lower than the smallest possible mean load pressure in dynamic operation. The memory 19, 2o can be acted upon with the aid of a hydraulic unit 21 with pressurized oil so that the gas from the storage bladders of the memory 19, 2o is pressed into the storage bladders of the memory J5, 4.

BATH 309831/0203

This means that the stores 3, 4 for the oil in cylinder 1 are blocked. By closing the pressure relief valves 22,

23 can be the pressure in the memory 19, 2o and thus in the Storage bubbles of the memory 3, 4 are maintained, so that the hydraulic unit 21 can be switched off. The pressure generated by the hydraulic unit 21 can be measured on the manometer

24 can be read.

Should the accumulators 3, 4 for the oil in the cylinder be opened are, the pressure relief vent He 22, 23 are set to the desired pressure, so that the gas from the storage bladders the memory 3 * 4 in the memory bladders of the memory 19, 2o is pushed and this the oil over the on the desired Pressure value set pressure relief valves 22, 23 blow off.

The invention is based on the exemplary embodiments shown not restricted; rather, further embodiments are possible.

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309831/0203

Claims (12)

Patent claims 1.! Hydraulic testing machine with cylinders for ^ - ^ Generation of a dynamic animal load and a static preload, each cylinder half of the preload cylinder on with slow drive disconnectable hydraulic accumulator is assigned, characterized in that the hydraulic accumulators provided with accumulator bladders with pressure accumulators or pressure generators (Pressure converters) of a higher pressure can be connected to the hydraulic accumulator to be emptied completely or partially. 2. Hydraulic testing machine according to claim 1, characterized characterized in that the storage bladders of the pressure accumulator (3j 4) .mit one or more storage bottles (5, 6) are connected for a gas in such a way that the storage bladders from the storage bottles (5 * 6) can be filled and emptied into this or into the open air. 3. Hydraulic testing machine according to claim 2, characterized = characterized in that the connection between storage bladders and storage bottles (5> 6) can be closed by valves (7, 8). 4. Hydraulic testing machine according to claim 2, characterized in that pressure gauges (7, 8) are provided for determining the pressure in the stores (3, ² O « 5 «hydraulic testing machine according to claim 2, characterized characterized in that the pressure in the storage bladders in slow operation depends on the pressure of the storage bottles (5, 6) is maintained. - 8th "
309831/0203 2 2 O 3 6. Hydraulic testing machine according to claims 1-5 * characterized in that the static before switching from slow to fast operation Hydraulic cylinder (1) generating preload by a hydraulic unit (11) with an additional one Pressure is applied that is large enough to remove the gas from the storage bladders of the pressure accumulator (j5 * 4) to completely or partially suppress and then the valves (7, 8) are closed. 7. Hydraulic testing machine according to claims 1-4, characterized in that the pressure in the Accumulator bubbles in slow drive by one supplied from the storage bottle (5), depending on the Pressure ratios in the storage tanks (j5> 4) and in the supply bottle (5) in one or both directions promoting pressure booster (14) is generated. 8. Hydraulic testing machine according to claim 7, characterized in that the pressure booster (14) with Compressed air is driven from the supply network. 9. Hydraulic testing machine according to claim 7 * thereby characterized in that before switching from slow to fast operation, the contents of the storage bubbles by overpressure in the storage bladders compared to the storage bottles (5, 6) or by a pressure intensifier (14) promoted into the storage bottles (5, 6) will. BAD ORiGiNAL 309831/0203 10. Hydraulic testing machine according to claim 7, characterized in that before switching from slow to fast operation, the content of the Storage bubbles are drained into the open air. 11. Hydraulic testing machine according to claims 1-4, characterized in that the storage bladders the accumulator (3, 4) with the accumulator bladders a further memory (19> 2o) are connected and the additional memory (19, 2o) can be acted upon with pressurized oil by means of a hydraulic unit (21). 12. Hydraulic testing machine according to claim 11, characterized in that the pressure of the oil in the memory (19, 2o) with the help of lockable Valves (22, 23) can be maintained. 309831/0203 Blank page