DE2520052C3 - Device for automatic measurement of the pitches of threads on workpieces - Google Patents

Description

The invention relates to a device / to automatically measure the pitches of threads Workpieces with a machine bed, a workpiece headstock that can be moved lengthways on this machine and a rotatably driven workpiece spindle mounted in this for receiving and rotating the Generating workpiece with electrically evaluable signals Devices in the form of a rotary pulse counter for measuring the rotational movement, in the form a linear scale coupled to the slide for measuring the longitudinal displacement of the workpiece and for scanning the thread to be measured, as well as with an electronic computer, which it _ Processes and "evaluates" the electrical signals entered.

In known measuring devices of this type (journal "Industrieanzeiger", Essen, 86, Jg ^ No. ₁ 78 of September 29, 1964, page 1634), pulse generators are provided as measuring means with which the rotary and longitudinal movements can be converted into electrical signal sequences. The signal sequences are entered into a computer and evaluated there in terms of a previously set transmission ratio. Deviations from the target value of the transmission ratio can be recorded as a continuous error diagram after digital / analog conversion using a high-speed recorder. If a button is used to control a tool, the head of which is continuously in contact with the flank of the thread during the rotation and longitudinal displacement of the tool, then errors in the thread can be determined as measurement results. These known devices are also suitable for producing threads on workpieces, in which a tool for machining the thread is arranged instead of the feeler. For this purpose, it is expedient to use the continuously obtained measurement results to regulate the rotary movement as a function of the longitudinal movement or the measurement results obtained in each case via drive motors in the sense of the intended setpoint values. The device is therefore not only used to test finished workpieces provided with a thread, but also to produce threads with a predetermined pitch ratio.

A prerequisite for both the production and the measurement of a thread is that for every pitch a certain number of pulses from the rotary encoder a certain number of pulses from the length measuring device is assigned. For this, the gear ratio to be set must be made up of two form integer numbers. In practice, however, these numbers should not be very large, since only after Sequence or passage of the corresponding number of pulses, a measurement result or a control value is output through which a previously determined error would have to be corrected. This results in a limited application of the known devices, if a high accuracy is maintained should be and win ratios that are only by high whole / multiple numbers / around expression can bring, such as from 10 000 / u 10 001. Although it is generally possible to increase the number of pulses per revolution by increasing the number of pulses per revolution b / w. per millimeter Increase the roughness lengthways, but the the accuracy due to the pulse spacing can only be achieved with a few selected inclines, namely with such inclines that are through express a small whole number ratio. The invention is based on the object that effective path length of the workpiece slide. the between two impulses of the length measuring device is placed, freely selectable / u design.

According to the invention, this object is achieved by that the linear dimension by means of a swivel joint on the Machine bed articulated and around the swivel joint opposite to the workpiece spin dclstocks is pivotable and the paddock between the Linear scale and the workpiece spindle lock as from a guide slot and an engaging in this

f, o the pin or link is a sliding guide .""/is trained.

^: - ^r . _ This results in the advantage of a much more precisely adjustable slope and the possibility of checking with each pulse of the device reading the linear scale, because the effective path length of the workpiece spincis stick between two pulses can be both smaller and larger than the distance between the pulses caused by the linear scale

to adjust.

To the effective path length of the workpiece headstock between two pulses smaller than the incremental distance of the linear scale is to be obtained the guide slot on the workpiece headstock at right angles to its longitudinal direction of movement to arrange.

On the other hand, in order to determine the effective path length de *. Workpiece headstock between two pulses larger than To get the incremental distance of the linear scale, iit the guide slot at right angles to the To arrange the longitudinal axis of the linear scale.

In the first version, the pulse spacing is multiplied by the cosine of the Swivel angle is the distance between two pulses. In the second case, in which the effective path length between two pulses is greater than the Pulse spacing of the length measuring means results in the effective path length if the pulse spacing is through the Coeinus of the swivel angle is divided. jn

The angle * that a pan will be made must in order to obtain a certain cosine value and set a certain slope ratio from it / u can be calculated in advance. To set a certain incline, the Linear scale be provided with an angle measuring device. Instead of immediately setting the However, the angle λ can also determine its sine value and adjusted with the help of gauge blocks between the free end of the linear scale and a horizontal support surface on the machine bed can be used.

Embodiments of the invention are explained below with reference to a drawing. It demonstrate

FIGS. I and 2 show a pitch measuring device with a guide slot arranged on the workpiece headstock, so that the path length of the work headstock between two pulses is equal to or less than the Pulse spacing.

3 shows a slope measuring device on a linear scale arranged guide slot, so that the path length of the workpiece headstock between two Pulses is equal to or greater than the pulse spacing.

Fig. 4 di? Length and angle relationships in the Device according to fig. 2 and

I ig. 5 the length and angle relationships in the device according to F1 g. 3.

The in F i g. 1 and 2 shown pitch measuring device has a machine bed 1 with a corresponding the double arrow 2 'straight back and forth displaceable workpiece headstock 2. One in the workhead 2 workpiece spindles mounted in bearings and driven in rotation by a motor 3 carry a workpiece 6, which has a thread to be tested. With the motor 3, a pulse counter 4 is connected to a electronic computer 5 is connected.

The head of a button 7 rests on the thread of the workpiece 6. The button 7 is also via a line 8 connected to evaluation electronics 9.

A second drive motor 10 is used to advance the workpiece headstock 2 in the direction of arrow 2 ′ provided, the control unit 11 connected to the computer 5 and the evaluation electronics 9 is adjustable.

The slope measuring device also includes a linear measuring rod 14 and a depositing device 15. Der 1. linear scale 14 is pivotably mounted in a swivel joint 16 carried by the machine bed 1, so that it can be pivoted through any angle α. To know the exact angle λ set, is either seen in the swivel 16 an angle measuring device or it will be used for the representation of the Angle «between the free end of the linear scale 14 and an existing one on the machine bed 1 Support surface 19 gauge blocks 17 sandwiched between.

The linear scale 14 is coupled to the workpiece headstock 2 at 18. The coupling 18 is as Sliding guide with a guide slot 20 and a pin 21 or sliding block 22 engaging in this educated. In the embodiment according to FIG. 2, the guide slot 20 is on the workpiece headstock 2 arranged perpendicular to its feed direction and the pin 21 on the linear scale 14, while in the Embodiment according to FIG. 3 the guide slot 20 with the linear scale 14 quei to its longitudinal axis connected and the sliding block 21 is mounted on the workpiece spindle mock.

As shown in FIG. 4 and 5 can be easily recognized. thus results in the case of FIG. 2 the effective path length L _{2 of} the workpiece headstock 2 from the displacement Li of the linear scale 14 multiplied by the cosine of the .Schwenkwinkel ix. In the case of FIG. 3, however, the path length Li results from dividing the displacement path L \ by the cosine of the swivel angle α.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Device for automatic measurement of the pitches of threads on workpieces with a machine bed, a motorized longitudinally displaceable workpiece headstock and a rotatably driven workpiece spindle mounted in this for receiving and rotating the Workpiece, with devices generating electrical signals that can be evaluated in the form of a rotary Pulse counter for measuring the rotary movement, in the form of a coupled to the slide Linear scale for measuring the longitudinal displacement of the workpiece and for scanning the to measuring thread, as well as with an electronic computer, which he entered electrical Signals processed and evaluated, thereby characterized in that the linear scale (14) by means of a swivel joint (16) on the machine bed (1) hinged and around the swivel joint (16) opposite the feed direction of the work headstock (2) is pivotable and the coupling (18) / wipe the linear scale (14) and the workpiece headstock (2) as from a guide slot (20) and a pin (21) or sliding block engaging in this (22) existing sliding guide is formed. 2. Device according to claim 1, characterized in that the guide slot (20) on the workpiece spindle! St <-M.k (2) at right angles / u whose direction of longitudinal movement is arranged. 3. F.inriciujng according to claim 1, characterized in that the Fü. ^ Rungss ^-l ilit / (20) is arranged at right angles / ur longitudinal axis of the linear scale (14). 4. Device according to claim I, characterized in that the swivel joint (16) with a Angle measuring device is designed. 5. Device according to claim!, Characterized in that that / to adjust the angular position of the linear scale (14) / wipe a horizontal Support surface (19) of the machine bed (1) and the end facing away from the swivel joint (16), Linear scale (14) gauge blocks (17) can be arranged.