DE269567C - - Google Patents

Description

PAT Ef ^ A M T.

IMPERIAL

The invention relates to a gauge, in particular for ball bearing rings, and aims a quick and accurate one. Measure the inside diameter or the groove of such Allow rings. Essentially, the invention consists in the interaction two or more buttons adjustable in a measuring table level, one of which, which one actuated in a known manner a precision measuring apparatus, is arranged such that it can be easily disengaged from the measuring position can and automatically return to it.

This enables great accuracy and speed of the measurement.

In the drawing, an example embodiment of the invention is shown, and although shows

Fig. Ι a front view,
Fig. 2 is a plan view,

Fig. 3 is a side view of the gauge. On a base plate 1 are two vertical Stand 2 attached, on which by means of screw spindles 3 a measuring table 4 in a vertical Direction is adjustable.

Scales 5 are provided on the stands 2, on which pointer plates attached to the measuring table 6 indicate the amount of displacement of the measuring table. In the two stands 2 are two screw spindles 7, 8 around the

same horizontal axis rotatably mounted, of which one, 7, hollow and the other, 8, is provided with a stepped extension 20 which is centered in the hollow spindle 7 is mounted and protrudes from this on the other side. Between this extension 20 and the hollow spindle 7 surrounding it is a helical spring 27 arranged, which tries to push the spindle 8 away from the spindle 7. On the outside At the end of the spindle extension 20, a handle 9 is articulated with a cam surface 10 is provided, which when you fold the handle in the position II (Fig. 1) against the stand 2 or a disc 11 arranged thereon and causes it to do so the spindle 8 against the action of the spring 27 towards the other spindle 7 axially is moved. The spindle 8 is with the spindle 7 with respect to the rotary movement inevitably connected, so that both spindles are rotated by means of the handle 9 at the same time can be. The threads of the spindles 7, 8 are directed opposite to each other, so that the arranged on them, by engagement of their arms 12, 13 in recesses 14 of the measuring table non-rotatably held nuts 15, 16 during the rotation of the spindles in a perpendicular plane passing through its axis simultaneously and evenly, but in different ways Directions are shifted. The nuts can be determined on the spindles by means of pressure screws 32, wor by simultaneously turning the spindles is made impossible. On arms 12, 13 of these nuts sit feeler pins 17, 18, which are provided with hardened steel balls 19 inserted at the end. A third such The feeler pin 21 is seated on an arm 22 which is perpendicular to the slots 14 extending recess 23 of the arm 30 of the measuring table is guided and from a stand 24 starts out in a corresponding

Recess 25 of the base plate 1 out and by means of a pressure ring 26 in each position is detectable. In the stand 24 is displaceable in the vertical direction and by means of a pressure screw 28 fixably guided a support 29 which serves to prevent bending to prevent the arm 30 of the measuring table by resting against the lower surface of the measuring table the stand 24 is established. Compared to the arm 30, the measuring stitch is still with one second arms 31 are provided.

In the through the feeler pin 17, 18 going vertical center plane of the device is a precision measuring apparatus in a known manner 33 slidably mounted, namely by means of a sleeve 34 which is in the base plate 1 by means a screw 35 displaceably guided and lockable by means of a pressure screw 36 is. The precision measuring device can be fixed in the sleeve 34 by means of a pressure screw 37 and lies with its probe body, a hardened ball 38, on the one from the stand 2 protruding end 40 of the spindle 8. By a spring and lever mechanism is the from. the spindle 8 or its end 40 caused axial displacement of the Probe ball 38 transferred to a pointer 39 of the precision measuring apparatus, which is on a scale 41 shows the magnitude of this shift on a greatly enlarged scale.

With the devices, the inside diameter of rings of any size can be determined within the limits determined by the displaceability of the feeler pins 17, 18, 21 will. If a certain type of ring is to be measured, the feeler pins 17, 18 adjusted according to the normal diameter of this ring type and tightened the pressure screws 32 locked in these positions. Then the third feeler pin 21 are set accordingly, the ones attached to the measuring table and its arm 30 Scales 42, 43 facilitate this setting. This is followed by a on the measuring table Normal ring 44 placed around the three feeler pins, the displaceable feeler pin 18 is withdrawn by means of the handle 9 towards the center of the measuring table to to allow the ring to be put on. The precision measuring apparatus 33 is then set so that that its pointer is on a certain point on scale 41, appropriately the middle, stands (Fig. 2). . When measuring the rings, the procedure is that the feeler pin 18 by means of of the handle 9 switched off (position II), the relevant ring on the measuring table via the three feeler pins are placed and then the feeler pin 18 is switched on again (position I. of the handle). When the diameter of the ring measured between the probe pins 17, 18 is smaller or larger than that of the normal ring, when the Probe pin 18 the probe ball 38 of the precision measuring device by a smaller or larger amount than when the normal ring is placed axially outwards, so that the pointer 39 to the left or right of the center line of the scale 41. So the pointer indicates whether the each measured ring has the same or a different diameter than the normal ring. The third feeler pin makes it easier the exact setting of the two actual measuring pins 17, "18 in a diameter of the Rings.

Claims (2)

Patent Claims: 1. Gauge with two or more buttons, one of which is Precision measuring apparatus operated, characterized in that this button is independent of the precision measuring device, expediently against the action of a spring, from the measuring position is disengageable. 2. Gauge according to claim 1, characterized in that the two for Measuring probes on two screw spindles with opposite threads are arranged non-rotatably, one of which is axially displaceable against the other and by spring action is kept away from this. For this purpose 2 sheets of drawings.