DE958512C - Alternating load testing machine - Google Patents

Description

Alternating load testing machine In general mechanical engineering as well as in the so-called Civil engineering has the testing of components on mainly dynamic material testing machines a big one. constantly expanding scope assumed. The ones to be examined Parts can be very rigid. Then the testing machine has to cope with small deformation strokes perform great strength. But if they are stroke-elastic, then there will be less force for large deformation strokes are required.

A testing machine that meets such contradicting requirements able to suffice by using either great or great forces, as required Deformation strokes generated would be very much in the construction methods used so far extensive and expensive, i.e. uneconomical.

The invention enables., A powerful alternating load testing machine to build in a simple way in such a way that they shine on your body with great differences Spring constants can be checked properly.

It is characteristic of the machine according to the invention that it when designed for a smaller application of force and longer deformation strokes an expediently easy to assemble on her and removable from her again Device with such designed undl arranged means, for. B. practically rigid Levers and an abutment for this, that has for the purpose of testing with larger ones Load forces and smaller deformation strokes of the inherent castle Flow of the forces increased by said means essentially within this facility runs. According to the invention, the force transmission means are supported here on a fixed but interchangeable abutment that can be mounted on the machine bed either directly or via a z. B. by means of rods. The like. Associated therewith Organ off. According to a further, the final feature of the invention is the power transmission means with each other as well as with the force absorption and output sides through spring joints connected with serrated heads.

The considerable advantage of the new machine is that its Parts, in particular the measuring and loading devices as well as the machine bed, dimensioned for the lower forces and for testing with strong forces can remain completely unchanged because of the higher forces generated when necessary from the parts mentioned, practically speaking, be kept completely away in the Drawing is the subject matter of the invention with an essentially horizontal loading axis for example shown schematically.

Fig. I mainly shows the construction principle of the alternating load testing machine according to the invention, while Fig. 2 shows a preferred embodiment of the subject matter of the invention reproduces.

On the machine bed 1 is the abutment 2 with one clamping head 3 for the test body 4 fixed, but easily removable and against a different structure arranged interchangeably. The not shown drive of the dynamic testing machine acts in the sense of the double arrow 5 through the rod 6 via the known per se Range spring 7 on the lever system for power transmission to the vibrating clamping head 19th

The power-transmitting system according to the invention consists of levers, by means of tabs with one another and with the drive force receiving and output side connected to the machine. The angle lever 8 is on the one hand through the tab 10 on the oscillating measuring spring head g and on the other hand through the tab 11 on the abutment 2 connected.

At its apex 12 is one arm of the unlabeled lever 14 through the Articulated lug 13 The other leg stands through both with the abutment 2 the tab 15 as through the tab I6 with the force-transmitting member 17 on the test body clamping head 19 in connection. Any force to be transmitted to the test body 4 that affects the area of stress, for which the testing machine is designed, flows almost exclusively only in the upper part of the structure 2 as a self-contained, dash-dotted line indicated River 20, which does not transfer any significant forces to any machine parts. The latter can therefore only be set up for normal machine loads without prejudice The embodiment according to Fig. 2 shows the measuring spring7 on the abutment 2 arranged. The power-transmitting levers 24 and 28 support the great force test body side from a cross member 21, which in turn by rods 22 with the abutment 2 is adjustably connected. As connecting links both in the lever system as well as with the force absorbing part 29 on the one hand and the cross member 21 on the other hand serve the spring joints 30, 3I, 33, 35 and 36 with - as clearly visible - serrated Minds. 37. The flow of great power also takes place here in a closed manner Circles indicated by the dash-dotted line 23.

To measure the force, instead of the measuring spring7, in a known manner the deformation of a power transmission member, e.g. B. of the organ 17 are used.

Claims (3)

With a testing machine according to the invention can. the transferred For example, forces increased sixfold and the alternating strokes at the same time are reduced to one sixth PATENT CLAIMS: I. Alternating load testing machine for Test body with widely different spring constants, characterized in that the machine when designed for a smaller application of force and longer deformation strokes an expediently easy to assemble on her and removable from her again Device with such designed and arranged means, for. B. practically rigid Hebein (8, 14 or 24, 28) and an abutment (2) for this, has that for Purpose of the test with larger loading forces and smaller deformation strokes the self-contained flow of forces increased by the means mentioned essentially runs within this facility. 2. Machine according to claim I, characterized in that the power transmission means on a fixed but exchangeable abutment that can be mounted on the machine bed (1) (2) either directly or via a z. B. by means of rods (22) or the like. With it support connected organ (2I). 3. Machine according to claim 1 or 2, characterized in that the Power transmission means with each other as well as with the power receiving and output parts are connected by spring joints (30, 31, 35, 36) with serrated heads (37). Publications considered: German Patent No. 839 564; VDI-Zeitschrift, Vol. 94, I952, pp. 3I4 to 3I8; Special print from »Metallwirtschaft«, XXII, 1943, Issue I / 2, regarding the article: "A new series of oscillating push-pull machines."