DE637401C - Hydraulic testing machine working in resonance for high alternating loads - Google Patents

Description

The invention relates to hydraulic

effective testing machines for high alternating loads and rapid load changes with an oscillating, in resonance

working system. ^v

Most known testing machines for alternating loads work with inevitable Drive in such a way that the alternating stress generated by a gearbox is immediate mechanically or indirectly via a hydraulic link onto the test body is transmitted. Because of the known transmission difficulties and mass effects These machines are subject to the size of the test forces, the oscillation strokes and in particular the achievable number of changes of a certain restriction. Testing machines have also become known which are designed as a vibratory structure and work in resonance. Included is usually the test body itself ^ partly in connection with other metallic ones Spring bodies, used as an elastic member of the vibratory structure.

Such machines allow high numbers of changes, but only leave small forces and small oscillation strokes and are only suitable for examining small and very small test rods. With such machines it has also become known that the vibration by a To excite and drive gas or liquid flow, but this is due to the above limitation changes nothing with regard to the achievable forces and oscillation strokes. After all, gases are also considered elastic Means proposed. However, these are poorly suited in the present case as a suspension element, since its change in volume is not proportional to the load; moreover its application brings difficulties of various kinds in lubrication, sealing, Cooling, etc. with itself.

The invention is based on the knowledge that the elastic change in shape an amount of liquid enclosed in a cavity under pressure an ideal, fatigue-proof, extremely simple and cheap spring body of great working capacity represents whose change in shape is practically proportional to the load within wide limits. The invention uses elasticity such amounts of oil as a spring body in the vibratory system of a testing machine for alternating loads. This avoids the difficulties inherent in inevitably working machines highly loaded gear. The large working capacity of the oil chambers allows it to be used high and highest test forces with a relatively large swing stroke and very high

*) Fon the patent seeker has been named as the inventor:

Dipl.-Ing. Heins Rammelt in Mannheim.

Change number. The machine according to the subject of the invention is therefore suitable for "examining large test specimens, for example whole structural elements U: like.

According to the invention, the ^ jp

system capable of conveniently so ausgestäiy |} ^': that is switched to the elasticity of Deuer machine included in the working cylinder assigned to the oil a further elastic quantity of oil as a counter spring, and between both as an energy carrier is a Mn-and-forth or rotating mass. The spring constant of these amounts of oil can be regulated in the most convenient way by increasing or reducing the same, whereby the natural frequency of the system can be adjusted in a manner known per se. The oscillating movement itself is excited and maintained in a manner known per se and by any known means. Likewise, the means known from other oscillators can be used analogously for the automatic regulation of the oscillation process.

The amount of oil used as counter-elasticity is used to create a preload in the machine to generate, which acts as a vibration center position. It corresponds to that on the Medium stress acting on the specimen. The oscillation deflections are symmetrical both sides of this equilibrium position and generate corresponding ones in the sample Voltage excursions up to the upper or lower limit voltage.

By choosing the correct preload, any voltage limits of the Adjust alternating load. It is readily apparent that alternating loads are possible are, which can be chosen between arbitrarily

4.0 upper and lower voltage limits of the same sign fluctuate. Further the lower load limit can coincide with the stress zero, which is the value corresponds to the so-called original strength.

Finally, through the double-acting design of the machine, forces can also be used alternating sign - alternation between tension and compression or i-bend - applied will. The equilibrium position (preload) can be zero or have any positive or negative value. ·

In the drawing, a machine for changing tensile forces is shown in Fig. 1.

A piston 2 is ground in the working cylinder 1, which carries the upper clamping head 6 via a hanger 3, 4, 5. Between this and a sample 8 is clamped in the lower clamping head 7. The flow of forces is through the Machine frame 9 closed. A second oil chamber 10 is now connected to the cylinder chamber ι, which is filled by means known per se, for example a pump 11, and inter arbitrary bias is set.

This bias is also shared by the ZylincjSirrauin 1 and thus the sample and thus determines the equilibrium position of the * "Vibration process.

Rooms 1 and 10 are not immediate connected, rather the connecting line opens into two small cylinders 12 and 13, the be bridged by 'a double piston 14. Because the two sides of the double piston

14 have the same cross-section, are the pressures

the same on both sides when the piston is at rest and the arrangement works like a direct one Connection of spaces 1 and 10. The double piston 14 is with a tunable mass

15 equipped. The system thus obtained works like a mass clamped between two springs and represents a vibratory structure Instead of the one spring, it is essentially the elastic compressibility that acts of the oil chamber 1 as well as the elasticity of the links 3, 4, S, 8 and 9, the elasticity of the oil chamber 10 as the second or counter spring Mass 1S by means of vibration engineering known per se in the direction of the arrow in a rhythm that corresponds to the natural frequency of the system, so the system build up to large amplitudes due to relatively small excitation forces. The size of the oscillation amplitude is known to be directly proportional to the tension of the spring systems and thus also to the stress on the specimen. By Choice of preload from 1 and 10 and by appropriately limiting the amplitudes of 15, for which the vibration technology the most diverse Offers possibilities, so the 'load limits can be set as required. The well-known ones come as vibration exciters Vibration technology means, for example rotating balancing masses, elastic couplings, electromagnetic exciters and the like.

The natural frequency of the system and thus the number of changes in operation can be known per se Way by changing the oscillating mass 15 or by changing the elasticity (Spring constant) can be varied as desired. The elasticity can be in the simplest Adjust the shape by enlarging or reducing the oil chambers 1 and 10.

It is readily understandable that all the advantages of the arrangement described machine working in resonance compared to the inevitable gearbox into the field lead, namely best. Efficiency, * 2 ° lowest losses, no gear friction, no gear heating, load on the

moving gear only by the small forces corresponding to the loss of damping, the only a small fraction of the full test forces effective in positive-running gear units Achieve, therefore small and very light gear, possibility of very high number of changes and the like

In the arrangement described, a certain central position is taken as the starting point, at which on both sides of the double piston 14 the same pressure (corresponding to the preload) prevails. The mass 15 oscillates around this central position in the same way Amounts left and right. With hindsight on the vibration exciter it is now necessary that this equilibrium position is clearly defined spatially in the system, so you have a specific oscillating piston position is equivalent to. This is achieved according to the invention in that in the central position through the oscillating piston itself opens a Uniführungskanal between 1 and 10 and thus the pressure equalization in the central position is enforced.

As an embodiment of this kind is shown schematically in Fig. 2, for example, whereby the above terms apply accordingly. The oscillating piston has on both Ends of longitudinal bores 16 which open into transverse bores 17. In the drawn middle position of the piston, these transverse bores 17 meet bores or grooves 18 in the cylinder walls, which are connected by a bypass line 19. In In this position, rooms 1 and 10 are directly connected and must inevitably have the same pressure, whereby the center position of the oscillating piston is clearly determined. The piston moves something from the middle position, the holes are covered, the connection of 1 and 10 thus interrupted, and the resilient ones, which grow with increasing amplitude, act Oil prints.

Since the swinging movement starts from the equilibrium position, must also the control and force measurement of the machine can be traced back to this central position. This is done according to the invention in that the pressure in the bypass line through means known per se is kept constant equal to the nominal value of the bias voltage. For this purpose, the bypass line is expediently connected to a pressure accumulator of any type, for example a cylinder and piston loaded with weights or springs, a Compressed air storage, a storage with 'pressure relief valve o. The like., Connected. In For example, a memory 20 is assumed in FIG. 2, its piston 21 with weights 22 is burdened.

In order to compensate for the free inertia forces occurring on the oscillating mass 15 The oscillating pistons 14 and oscillating masses 15 can be used in a manner known per se be arranged in pairs and in opposite directions in the same size and the same stroke. the Fig. 3 shows schematically an example of such an arrangement. The two pistons will so excited in a known way that they move in opposite directions in every position, whereby the free mass forces in the system are completely balanced.

Instead of the oscillating mass of the oscillator, ^7S can also use the momentum of a rotating mass as an energy carrier. Fig. 4 schematically shows such an embodiment. The oscillating piston 14 is articulated to the flywheel 24 by a push rod 23, which can be thought of as two parts, and which is able to carry out oscillating movements oscillating around the fixed pivot point 25. The moment of inertia of the flywheel can be changed in a manner known per se. What has been said above applies analogously to the mass balancing. A rotary oscillator, perhaps a pendulum motor, can be used as the exciter. Of course, rotary pistons can also be used in place of the longitudinally movable pistons 14.

With the arrangement described above, only forces of one sign, so either tensile or compressive forces are exerted. Forces of changing signs, that is, alternation between tension and compression or i-bend or the like, are known per se Way caused by double-acting design of the machine, according to the invention two inevitably interconnected, push-pull oscillating piston systems are provided in such a way that the outlet of the oscillating piston or pistons increases the pressure in the pulling cylinder of the machine forces, while the decrease with an increase in pressure in the printing cylinder of the machine connected is.

Fig. 5 and 6 show schematically two possible arrangements. In Fig. 5 mean 26 the pulling cylinder, 27 the pressure cylinder, the pistons 28 and 29 of which are connected to one another by means of rods 3, 4, 5 and are connected to the upper clamping head 6 and act on the sample 8, which on the other hand in the fixed counter-clamping head 7 is held. The cylinder spaces 26 and 27 are connected by a channel 30, in which a vibrating piston 31 with vibrating mass 32 is switched on in the manner described above is. The oil chambers 26 and 27 again serve as the elasticity of the oscillatory system. To adjust the elasticity If required, additional elastic oil chambers 33 and 34 can be added to the cylinder chambers 26 and 27

be switched on. The same applies to excitation, bias and control said above.

In the arrangement according to Fig. 6, the same applies to parts 3, 4, S, 6, 7, 8, 26, 27, 28 and 29 Designations as in Fig. 5. Deviating from this, each of the cylinder chambers is 26 and 27 connected to an oil chamber (counter-elasticity) 35 and 36, respectively, with at least an oscillating piston 37 or 38 with oscillating mass 39 Tdzw. 40 interposed is. The pistons 37 and 38 are by means known per se, for example a two-armed lever 41, connected to one another so that the cylinders 26 and 27 facing sides of the oscillating pistons move in opposite directions. at In this arrangement, in 35 and 36, and consequently also in 26 and 27, different preloads can be used to get voted. This shifts the vibration center position to the positive or negative side, and the load limits different levels of tension and pressure can be selected.

Claims (6)

Patent claims: 1. Hydraulic testing machine for high alternating loads and fast Load changes with an oscillating system that works in resonance through cavities with enclosed liquid, the elastic change in volume of which acts as the elastic means of the vibratory system is used. 2. Testing machine according to claim 1, characterized characterized in that the oscillatory system consists essentially of the elasticity of the enclosed in the working cylinder Oil volume, a formed by a further enclosed amount of oil Counter-elasticity and one between the two, going back and forth or rotating mass. 3. Testing machine according to claims 1 and 2 with at least one vibrating Double piston, characterized by such an arrangement of the double piston that in each case one piston side on the Ma- ■ sdiinenzylinder, the other acts on the oil space of the counter-elasticity. 4. Testing machine according to claims 1 to 3, characterized by the machine cylinder with the oil chamber of the counter-elasticity connecting bypass channel (19), which is in the middle position of the The oscillating piston is open and the oscillating center position is achieved by an inevitable pressure equalization in this position specifies. 5. Testing machine according to claims 1 to 4, in which worked with bias is, characterized in that this bias (medium voltage) by generating and keeping constant a corresponding static liquid pressure with means known per se in which the vibration central position enforces Connection channel (19) is applied. 6. Testing machine according to claims 1 to 5 with double piston for generating alternating ^ - forces, in each of which a working cylinder is provided for pulling or pushing action, characterized by two inevitably interconnected, push-pull oscillating piston systems, one of which is the Working cylinder for tensile forces and the other is assigned to the working cylinder for compressive forces. 1 sheet of drawings