CZ3837U1 - Feeler-pin gauge - Google Patents

Description

Technical field

The utility model relates to a gauge for determining the position of the workpiece relative to the spindle, in particular in rotary machine tools such as milling machines, coordinate grinders, drills and other machines with a required machining accuracy of 0.01 mm.

BACKGROUND OF THE INVENTION

The basic requirement when working on spindle machine tools is a reliable control of the progress of work and adherence to the prescribed dimensions of manufactured workpieces. The tools that are most commonly used to measure workpiece dimensions are both mechanical and electronic.

Mechanical touch gauges are basically based on transmitting the position of the sensing member that touches the workpiece to a pointer, most often a dial with a hand. Various lever mechanisms are used for transmission, the sensitivity of which is influenced both by the construction itself and by their immediate condition (wear, maintenance). In addition, accurate measurement close to the required size requires considerable operator attention.

More modern measuring systems are based on various principles using electronics. They are very perfect, their accuracy generally exceeds that of mechanical instruments and, due to the absence of wearing parts, they retain their technical parameters, in particular accuracy, for an indefinite period of time. Their disadvantage, however, is the relatively high price, for which they become less attractive or completely unusable for a certain area of engineering production.

The essence of the technical solution

In principle, a gauge according to this utility model has circular cross-sectional parts connected by a spiral cavity of the two parts with end-fastened ends of both parts and with shoulders on the front contact surfaces of which are two hollow elongated spring disposed in the region of opposite adjacent ends of both parts.

The machine works by clamping one part into the machine spindle and moving the other part off the axis of the upper part and the spindle along the contact surface. As soon as the spindle rotation starts, the free, unmounted part of the device that is off the axis of the top part will rotate in this position, thus throwing. When the spindle is moved, the lower (loose) part with the workpiece is touched and the runout gradually decreases until the axes of both parts of the measuring instrument are aligned. The moment at which both parts of the gauge coincide is not well perceptible, therefore the spindle feed continues. As the lower part of the gauge is moved further by the workpiece, friction of the lower part against the workpiece edge causes a sharp misalignment of the lower part, which is clearly visible and can be read on the vernier scale to 0.01 mm. At that point, the meter position must be read.

-1GB 3837 U

The misalignment takes place after the spindle axis is moved by approx. 0.01 mm. This value is possible from the measured dimension or. deduct.

BRIEF DESCRIPTION OF THE DRAWINGS

The gauge according to this utility model is shown in the accompanying drawings, in which Fig. 1 shows the gauge in longitudinal section, Fig. 2 shows schematically in longitudinal and cross-section the position of both gauge and workpiece parts before the measurement; 4 shows the same at the moment when the friction on the workpiece causes misalignment of the lower part.

Exemplary embodiment

The gauge shown in Fig. 1 consists of two cylindrical parts 1, 2 through which the cavity 2 passes. The distal ends of the two parts 1, 2 are provided with internal shoulders in which a spiral spring 2 is mounted on the transverse pins 4, 5. the ends of the parts 1, 2 are closed by rubber plugs 7, 2. The adjacent ends of the parts 1, 2 are provided with external shoulders and their front surfaces are displaceable one after the other, the spring 2 prevents them from being distant to the point.

2 to 4, the positions of the two gauge parts 1, 2 relative to each other and to the workpiece 9, the dimension of which is measured, are shown in successive stages of the measurement.

Industrial applicability

A gauge according to this utility model is a reliable device for measuring workpiece dimensions on spindle machine tools. Its advantage is its simplicity and low price, which makes it an extremely suitable device especially for small factories and workshops.

Claims FOR PROTECTION Touch gauge ke determining the position of the workpiece with respect to to the rotating one spindle, in y labeled by consisting of

Claims (1)

particularly suitable for small factories and workshops. Claims FOR PROTECTION Touch gauge ke determining the position of the workpiece with respect to to the rotating one spindle, in y labeled by consisting of two hollow elongated parts (1, 2) of circular cross-section connected by a coil spring (6) located in the cavity of both hollow elongated parts (1, 2) with ends fixed in the region of opposite ends of both hollow elongated parts (1, 2) and shoulder at the adjacent ends of the two hollow elongated parts (1, 2), the faces of which are displaceable one after the other.