DE568911C - Hardness testing machine like the Rockwell hardness testing machine - Google Patents

Description

Hardness testing machine like the Rockwell hardness tester For hardness testing machines of the type of Rockwell hardness testers, the results obtained with it often show considerable scatter, which is less due to the material characteristics of the test object but mainly as a result of the type of storage of the test object measurement errors caused in the testing machine are to be considered. If z. B. the test item When it is introduced into the testing machine, small chips adhere to its contact surface, so these chips are able under certain circumstances to transfer the small preload without to deform. But under the actual test pressure they are crushed, and by the amount of this squeezing, the measure of the enlargement of the depth of penetration becomes when increasing the load from the small preload to the actual test pressure appear incorrectly too high; in this case the test specimen will appear softer, than he is. The influences of storage are not exhausted with this example. It can be proven that round material generally shows higher hardness values, when it rests on one surface as if it were on two at a certain angle mutually inclined surfaces, e.g. B. in. A prism, rests. In the latter case Due to the wedge effect, the material only presses properly under the test pressure introduces the prism, i.e. leads one relative to the testing machine, albeit microscopically small movement, which leads to a corresponding error in the depth measurement.

The disadvantages outlined with the previous hardness testing machines of the kind the Rockwell hardness testers are hard to avoid are by the present Invention switched off, namely that the test specimen by tension springs with is firmly connected to the testing machine; the force of the tension springs is so high chosen so that it exceeds the actual test pressure. This allows. more appropriate Construction can still be achieved that the elastic deformation of the machine frame are completely switched off from the measurement, insofar as the machine frame as a result the tension springs are already fully loaded when the test object is introduced and remains the same high load during the entire test process. With small machines The tension springs enable the machine to be attached to the test object, e.g. a bulky one Piece, to be fastened in such a way that a perfect test is possible.

The invention is hereinafter in connection with other basic principles Improvements are described, for example, and shown schematically in Figs. I and i.

Upper part a and lower part b are connected by a tube c to form a C-shaped frame. As with other hardness testers, the lower part b can be moved on the tube c and tightened using a clamping screw in the position corresponding to the height of the test item. B in the lower part is provided with support tables steep common spindle / superimposed overall. The spindle / can be retracted by means of a gear, whereby the tensioning spring is tensioned. The gear path has a locking mechanism i, which is released by pressure piece k.

The pressure piece m with the test body n and the load lever o are installed in the upper part a. A bushing p with a counter spring g serves to protect the test specimen n against lateral forces. When the test specimen is introduced, this sleeve is pushed back so that the test specimen comes into contact with the test specimen. The loading lever o is loaded with the preload by the force of the spring r. Ir. the tube c is inserted a second tube, in the interior of which the spring is located in a manner known per se. The spring is and remains tensioned by the tube with a force that is only a little less than is necessary to achieve the main load. To generate the main load, the tube with the spring is screwed down by means of the gear a until the spring hooks onto the lever o. If the tube is screwed further down, the spring tensions itself further by a certain amount, so that the force required to generate the main load is fully achieved. When relieving the load, the pipe is screwed up again and the spindle is withdrawn by means of the gearbox. The spring t forms a self-contained but interchangeable whole with the tube and gears, whereby the need for different test pressures is taken into account. The dial gauge v, the feeler pin of which is in contact with the lever o, is used to measure the depth.

From the description it is apparent that the present invention at Construction of portable hardness testers will bring very special advantages, which is why as Application example of the invention in Fig. I and 2 also a portable hardness tester is shown. For stationary operation, this can be attached to a frame w will.

Claims (2)

PATENT CLAIMS i. Hardness testing machine like the Rockwell hardness tester, characterized in that before connecting the test object with the testing machine the measurement in the power flow passing through the machine and the test object an energy storage device (spring device) is inserted in such a way that the test specimen and the machine is preloaded with a force that is greater than the test pressure. 2. Hardness testing machine according to claim i, characterized in that the test body support (m) surrounding, spring-mounted bushing (p) is arranged in the direction of the test pressure in such a way that that when the test specimen is introduced into the test machine, it first touches the test specimen towers above and only pushed back by the force of the tension springs when removing of the test specimen is pushed forward again by a counter spring (g), so that they have any side, the good texture and the correct fit of the Keeps the test body away from adverse effects.