DE845424C - Dial gauge for hardness testers according to the Rockwell method with automatic adjustment to an unchangeable zero point - Google Patents

Description

The Rockwell hardness testers usually have one Dial gauge with rotatable dial, which is rotated by hand after the preload has been applied until the zero mark coincides with the pointer. This rotation of the dial each attempt requires a certain amount of time, which is a considerable proportion of the entire test time, which is about 15 seconds.

There are hardness testers according to the Rockwell method with automatic Known zero point adjustment, which all have certain deficiencies, so that they are have not introduced in practice. So in one case it becomes a mechanical clutch used, in which there is always a certain slip and measurement errors are caused. The known electrical devices with electromagnetic clutches require too much effort, which is disproportionate to the achieved goal. It facilities have also become known that work with friction clutches. These Couplings are located between parts that have a relatively large mass have, so that when the test speed is increased as a result of the occurring Acceleration forces a slip which falsifies the measurement occurs.

According to the invention, these deficiencies are eliminated by a dial gauge which in place of the fixed pointer has an almost massless split-seconds pointer, which is from the engine up to one after two pointer revolutions automatically into the circular path of the drag pointer entering the stop is taken. This stop represents the zero position of the dial gauge. Even with a progressive movement of the engine the pointer stops at the stop, but immediately moves backwards off as soon as the load is applied and shows the depth of penetration and after Lifting the load increases the Rockwell hardness.

So always from the same starting position of the pointer and engine is assumed and in each hardness test approximately the same position of the Engine is adhered to the pointer, is a second similar acting stop attached, which enters the circular path of the pointer at the end of the backward movement and holds it while the engine continues to move to the rest position.

The pointer is carried along by the drive shaft by a adjustable friction clutch, the adhesive force of which is such that the pointer moves not adjusted by itself and on the other hand no excessive force is necessary, to move the engine further after the pointer stops. Limit these attacks that is, the movement of the loose pointer at the zero position and the initial position the clock.

The scale can also take the place of the pointer. In this case it will the scale is taken along by the drive shaft of the dial gauge with a certain frictional force, until the abovementioned stops turn off the movement at the zero position, if the engine also makes another movement. When applying the load leads Now the backward movement indicating the depth is off the scale, and it is at a fixed point The reading mark reads the penetration depth or the Rockwell hardness.

Fig. I and 2 show the dial gauge moved to the zero position. The zero position lies before the end point of the possible clock movement, by a corresponding setting tolerance to obtain. As shown in Figs. 1 and 2, the I: iihlstift I has been moved downwards. The stop 2 is connected to the feeler pin in such a way that it corresponds to the movement of the Feeler pen intersects the circular path of the pointer tip during the last pointer rotation, so that pointer 3 strikes pin 2. At the point at pin 2 on the feeler pin I is attached, the scale is zero. Despite more or less great rotation the pointer shaft 7, pointer 3 stops at zero. But pin 4 leaves in this position the pointer 3 rotate freely.

Fig. 3 and 4 show the dial gauge in its initial position.

Now the feeler pin has been moved up, the one connected to it Stop pin 2 has allowed the pointer to rotate freely in this position. The stop pin 4 but during the last part of the return movement intersects the circular path (Jer Pointer tip so that pointer 3 now strikes pin 4 at scale mark 50, while the pointer shaft 7 rotates further back into its initial position. Here is the more or less large further rotation of the pointer shaft 7 after reaching the zero position with respect to the pointer 3 is balanced again. It should be noted that between the initial and zero position, the stop pins do not follow the path of the pointer overlap so that all intermediate values can be measured unhindered.

The entrainment of the pointer 3 by the pointer shaft 7 can be by means of Adjust spring 5 and nut 6 finely.

The attacks listed in the example can also be combined, if the pointer is designed with a corresponding driver. Likewise is it is possible to use other movement elements of the watch to move the stops to create.

PATENTAN5PRÜCH5: I. Dial gauge for hardness testers using the Rockwell method with automatic adjustment to a non-displaceable zero point, thereby characterized in that a movable on the pointer shaft with adjustable force Ahlese organ brought to a standstill despite continued movement of the pointer shaft when it coincides with a fixed reading device at the zero point, whereby the standstill is caused by a stop which is just before the movement of the clock Reaching the zero position in the circular path of the reading element moved with the pointer shaft to be led.

Claims (1)

2. Dial gauge according to claim I, characterized in that the movable Reading element is brought to a standstill by a stop just before the initial position the clock is achieved so that displacements of the movable reading member on the The pointer shaft must always be balanced again when the zero point is reached and the same initial position of the pointer is guaranteed.