DE892057C - Measuring device for a length measure - Google Patents

Description

Measuring device for a length measure The invention relates to a measuring device for a measure of length, e.g. B. Thickness, inner diameter, outer diameter or the like. Your The underlying task is to design the measuring device in such a way that it can be operated Requires little practice and takes little time. That should also be The measuring device is characterized by its simplicity and accuracy. This is what makes this job solved that the device, its measuring jaws - in a known manner in the direction one on top of the other resilient abbots of a common holder sit under Effect of a determinable by the one-actuator force, z. B. spring force, elastic deformed, designed according to the invention for the purpose of using the device as a teaching is that the spring is tensioned by a member indicating the length of the measuring section each position of which has a very definite magnitude of the elastic change the measuring section causing force is assigned. The invention is particularly useful for measuring the diameter of bearing balls.

For the production of a high quality ball bearing you need one Set of balls that are as exactly the same diameter as possible and as few deviate from the mathematical spherical shape as much as possible. The selection of the balls of the same diameter as well as the examination of their spherical shape is mostly carried out at the moment by hand with the help of micrometer screws and other suitable measuring tools, whose operation requires practice and takes a relatively long time.

Another object of the invention is to make the balls automatically depending on the measurement result sort by. These measuring jaws will is carried by a sturdy bracket, which is under the influence a tension spring that can be tensioned by the adjusting member expands by microscopic distances.

To solve this problem, the measuring hooks are used after they have been widened passing balls by means of a moving according to the spring tension. the respective dimension corresponding sorting compartment supplied.

The device can be driven mechanically, so that with mechanical Feeding the balls results in an automatic mode of operation.

An exemplary embodiment of the invention is shown schematically in the drawing shown in plan.

On a wall IO of the measuring device. is a holder 1 1 attached, the carries a relatively strong bracket 12 made of steel. They are on this temple two measuring jaws 13 and I4, namely the measuring jaw I3 fixed, the jaw 4 however, adjustable by means of a micrometer screw 15. The one formed by the cheeks Passage I6 for the balls to be measured can therefore have different diameters can be set. While one long side of the bracket at its center of the foot II is worn, a coil spring I7 engages in the middle of the other long side on, -the attached to the shorter arm of a lever designed as a pointer I8 is. This is pivotably mounted in a holder 19 on the opposite of the wall Io Wall 20 of the meter is attached. If the pointer is on the zero division, so is the spring? 7 relaxed. The passage I6 then has a slightly smaller width, than it corresponds to the nominal diameter of the balls to be tested.

For the purpose of the test, the ball to be tested is placed on the opening I6. At first it cannot fall through it. Then you swing the lever 18 in the direction of the arrow.

Here the spring I7 is tensioned and. exercises on the bracket 12 increasing train. The strengths of the spring 17 and the bracket 12 are so on each other matched that a large deflection of the lever is only a very small expansion of the bracket. For example, a path of the lever tip of 1 cm can Expand bracket by t / 2000 mm. So you swivel the pointer r8 from the zero line starting from its division in the direction of the arrow until the ball falls through and then reads off the relevant position of the pointer. She represents a definite Measure for the ball diameter.

The measuring device can easily be designed so that it is automatic is working. For this purpose 12 sorting compartments are arranged under the bracket.

A pivoting tube, the upper end of which is under the passage I6, is so connected to the pointer I8 that its lower end by pivoting the Pointer I8 to different sorting compartments corresponding to the lines of the graduation is set. Balls of the same size go into the same sorting compartment, whereby the sorting can be done in any fine gradation.

A completely automatic way of working results from assignment a drive that moves the pointer r8 back and forth automatically and each time Returning to its zero position, a new ball to be tested leads to the passage I6. Instead of coupling the pointer I8 with a swiveling guide scope, you can also use the Arrange sorting bins on a movable support so that they are in sequence pass through the passage I6. Your carrier then causes the pendulum movement of the lever I8. This can be done in such a way that the sorting compartments on one to one Fixed vertical axis rotating disc are arranged, which one the lever I8 having pivoting cams. While this slice the sorting bins underneath through the opening I6, its cam pivots the lever I8 with steady Speed from the zero line of the graduation to the maximum deflection. Then the cam suddenly lets the lever I8 snap back into the zero position, whereupon the disk bewirl.it the supply of a new ball to opening I6.

The same device fulfills the task of verifying the spherical shape. In this case, it is loaded with pre-sorted balls of the same size, and the Balls are then passed through the device about fifteen times. Always come still other diameters for measurement, so that deviating diameters, be it larger or smaller ones end up in neighboring sorting compartments, and only the flawless ones Balls come together in the designated compartment.

The invention can be modified in many ways. So can the passage I6 have a shape in place of the round cross-section, which results when it is formed from several, approximately three, hardened tips. To the Instead of the tension spring I7, another element can also occur, which depends on its The force measured by the lever or the sorting bin carrier is applied to electromagnetic, hydraulic or generated pneumatically or by weight action.

The measuring device can also be designed so that it can be used for other purposes can serve as the measurement or testing of bearing balls. So it is suitable without more about thickness measurement, if the measuring jaws I3 and I4 are designed accordingly are e.g. B. flat parallel surfaces face each other or have measuring tips, between dile the workpiece is pushed.

Instead of the thickness measurement, however, it can also be used with an appropriate configuration of the device any other size can be measured. Is it for example the measurement of an internal dimension of a hollow workpiece, the measuring device consists of an expandable body to be introduced into the workpiece, its expansion microscopic distances under the action of a precisely adjustable force takes place, whereby this force in turn can be tensioned by a macroscopic amount Spring or generated in an electromagnetic, hydraulic or pneumatic manner can be.

In contrast to the measuring device according to the invention, the known Measuring devices designed so that their measuring jaws of separate, sliding or rotatable holders guided to one another are carried, their adjustment to one another by form-fitting means, z. B. Sdhraubengewindc, -Keile od. Like., Takes place. The support of the measuring jaws are designed to be as rigid as possible, so that they are elastic Prevent deformation. In the measuring device of the invention, however, such a deformation occurs just brought about.

Claims (5)

PATENT CLAIMS: I. Measuring device for a length measure, e.g. B. Thickness, inner diameter, Outer diameter or the like, with measuring jaws that are resilient towards each other a common holder seated under the action of a spring exerted force elastically deformed, characterized in that for the purpose of use of the measuring device as a teaching the spring by indicating the length of the measuring section Actuator is tensioned, each of which has a specific size of the position elastic change of the measuring distance causing force is assigned. 2. teaching for bearing balls according to claim i, characterized in that that the finely adjustable measuring jaws are carried by a bracket on which the Attacking spring. 3. Sorting device for bearing balls with a teaching according to claim 2, in which the balls after passing through the opening of the gauge sorting compartments are supplied, characterized in that the balls, which the measuring jaws formed opening pass under their own weight, according to the size of the spring tension acting on the measuring jaws. 4. Sorting device according to claim 3 with one under the gauge opening sorting compartment support running through, characterized in that the sorting compartment support provided with a spring alternately exciting and relaxing engine is. 5. Apparatus according to claim 4, characterized in that with the A cam is connected around a vertical axis rotating sorting compartment carrier, during the rotation of the sorting compartment carrier a spring release lever in one Direction swiveled, but it suddenly returns at the end of the orbit releases into the starting position. Cited publications: German patent specification No. 262 272; Swiss Patent specification no. Go I26.