DE954010C - Measuring device, consisting of a dial gauge and an electrical tolerance indicator - Google Patents

Description

Measuring device, consisting of a dial gauge and an electrical one Tolerance indicator There are already. combined measuring devices known, which on the one hand contain a dial gauge and, on the other hand, an electrical tolerance indicator, d. H. Devices with a dial gauge acting on an electrical contact device, wherein the contact device tolerance signals or relays for the connection of such Controls signals which indicate whether the controlled height of the test object is within the permissible tolerances is whether it is too small or whether it exceeds the tolerance range. exceeds. The previously known devices of this type have the desired tolerance range accordingly adjustable end contacts as well as one or more with probe pin or suitable transmission means actuated movable contacts. The moving contact inevitably moves; the path he has covered then stands in a certain relationship to the path of the probe pen. If now the end contacts for closing the signal current are firmly arranged in a circle, it turns out that this limits the path of the probe in an undesirable manner will. In addition, the shocks that occur when a maximum value is exceeded the contact device or the transmission mechanism in the dial gauge or in the tolerance indicator to damage. This is especially the case when the test items are in quick succession should be examined.

To reduce this risk, it has already been proposed to use the adjustable End contact that reaches when the probe is moved upwards from the moving contact is to train resilient.

But since it is practically not possible to make this resilient contact in this way to train that he retreat a large piece when hitting the moving contact can, the disadvantage described above is only partially eliminated.

With strong deflections of the measuring probe pen therefore occur nevertheless Bumps on. In addition, such resilient setting contacts have the disadvantage of being unsafe Contact, the changing contact pressure and thus the non-constant contact transition swi the state.

According to a further proposal for an electrical tolerance indicator without a dial gauge, there is a nose of a transmission link under the action of a spring loosely on the end of the probe pen. The transmission link is pivotable on a pin and holds a contact carrier which is pivotally attached to it. A compression spring on the one hand. on one firmly connected to the transmission link Part and the other hand is supported against the contact carrier, places this contact carrier against, a stop of the transmission link. From this stop the stands out Contact carrier from when the moving contact is when crossing the upper Tolerance dimension, d. H. during the upward movement of the button, against the fixed one Contact. After exceeding the lower tolerance level, as soon as the movable contact rests against the other fixed contact, the contact between the probe pen and the nose of the transmission link interrupted.

However, it is disadvantageous for operational safety that the contact pressure after reaching the upper tolerance limit does not remain constant, but rather itself corresponding to the degree of compression of the compression spring influencing the contact carrier changes.

It is also undesirable that the acting on the probe pin Force increases very sharply after exceeding the upper tolerance limit.

Finally, the lack of one directly on the stylus pen has an effect attacking spring unfavorably.

The invention now relates to a measuring device consisting of a Dial gauge and an electrical tolerance indicator with a contact device for the control of tolerance display signals or of relays controlling these signals, which contact device can be set according to the tolerances, one between these movably arranged, a contact carrying and through a spring loaded contact carrier and also a movement of the probe pin contains on the contact carrier forwarding transmission member, which is under Action of a spring acting on it against the probe pin sets such that this contact is interrupted when the moving contact is exceeded when crossing which puts a tolerance limit against the one end contact.

It is the aim of the invention to provide a device at which eliminates the disadvantages of known facilities. In particular, the new Device be designed so that after exceeding the upper and lower Tolerance limit the contact pressure remains constant. In accordance with the invention, this is how achieves that the transmission member and the contact carrier are independent of one another are rotatably mounted that the transmission member is designed as a two-armed lever and under the action of his spring strives to move one arm against the movable one Contact carrier and the other arm against a pin or the like of the probe pin to place and that also the force of the spring acting on the transmission member is significantly greater than the force of the contact carrier spring and significantly smaller than the force of a spring applying the probe pin against the test object, so the contact between the transmission member and the contact carrier when it is exceeded the other tolerance limit is interrupted.

The drawing shows an embodiment of the inventive measuring device.

Fig. I relates to a front view of the entire M, eating device; Figure 2 illustrates a side view of the device of Figure I; Fig. 3 shows a rear view on a compared to FIGS. I and 2 enlarged scale, wherein the rear part of the housing body of the electrical tolerance indicator is lifted off is; Fig. 4 relates to a section along the line 4-4 of Fig. 3, and Fig. 5 shows an electrical circuit diagram.

The device shown includes a very general in the drawing Dial gauge marked I, for example the one in the Swiss patent 230 298 shown (this Swiss patent corresponds to the following Patents: Great Britain 563 622, France 90695I, Germany 853 656, USA 2 336 695, Italy 403 and 7, Sweden II3 345). The dial gauge I has one at the end a longitudinally displaceable axis 3 held button 2, This axis causes the Shifting by means of a transmission gear known per se, the rotation a pointer 4 opposite a scale division, not shown in the drawing.

The dial gauge, the bottom of which has been removed, sits on a circular one Approach 5 of a housing body 6, which is part of an electrical trish Forms tolerance indicator. Not shown screws that the holes 7 of the dial gauge housing penetrate and are screwed into the body 6, hold the dial indicator I on the Housing body 6 fixed. In the longitudinally displaceable axis 3 of the button is a screw screwed in, the head of which serves as a stop (Fig. 4).

The way in which the axis 3 mediates is described below of the stop 8 on the transmission mechanism of the electric death dance indicator acts. This mechanism housed in the housing 6 contains a mechanism around the axis 10 pivotable lever 9. A spring II acts on one end of the lever in such a way that the opposite end I2 of this lever rests against the stop 8. the The force of this spring II is significantly smaller than the force of the one not shown Spring that pushes the button into its lowest end position indicated on the drawing.

The spring II therefore also acts on the axis 3, but with an opposite one Sign as the button axis spring, not shown, and also with a significant smaller force.

The transmission mechanism of the tolerance indicator further comprises also a cranked one in the area of his knee I3 on one with the housing body firmly connected part pivotably mounted lever, one arm 14 of which with the lever 9 cooperates, while the other arm I5 at its free end part of a electrical contact device forming contact I6 carries. This lever is by means of a tension spring 17 is permanently applied against the lever 9.

The springs 17 and II act against each other; the force of the spring I7 but is significantly smaller than that of the pen.

The tolerance indicator is also elastic with two each Spring 20 and 21 held contacts I8 and 19 equipped. The springs 20 and 2I, which press said contacts against the ends of regulating screws 22 and 23, are insulated from one another and from the housing body 6. Between the two Contacts I8 and 19 is the contact so that when pivoting the arm I5 can be brought into contact with one of these two contacts.

The two regulating screws 22 and 23 are used for independent adjustment of contacts I8 and 19 by hand, thanks to the knurled screw heads 24, of which only one is shown in Fig. 3. By turning the said heads in one or other sense, the contacts I8 and 19 can be easily moved to the middle position of contact I6 or move away from it.

To the two screws 22 and 23 after setting the contacts I8 and l) determine is on each side of the housing body 6 one through one eccentric part 26 of a shaft 27 held bracket provided. The shaft 27 leaves in a certain position of the regulating screw 22 or 23 by means of a small Handle. 28 or

28a twist, whereby the bracket 25 or 25a the rule screw in Housing body 6 blocked.

Fig. 5 shows a simplified circuit of the electrical circuits.

It is assumed that the movable contact I6 is connected to the ground may be. The contacts I8 and 19 are with the interposition of electrical relays 29 or 30 connected to the pole of a power source, which opposite the ground exhibits tension. The two relays work on the electromagnetic principle, however, electronic relays can also be used, for example. That Relay 29 has a changeover contact 39 and the relay 30 has a changeover contact 32. When contacts 16 and I8 are touched, relay 29, the contact, is activated 31 is put into the working position and thereby closes the circuit for one now lighting up signal lamp 33. If, on the other hand, the contact I6 is against the contact 19 sets, then the relay 30 receives power, and the changeover contact 32 is in its Brought working position, whereby another signal lamp 34 lights up. Touches the Contact 16, neither contact 18 nor contact I9, then the changeover contacts remain 3I and 32 due to non-energization of the relays 29 and 30 in their rest position, so that the Circuit for the signal lamp 35 is closed. The three lamps 33 to 35 are seated inside the housing of the tolerance indicator, directly behind the windows 36, 37 and 38. The middle window 38 can for example consist of white-colored glass, while window 36 may be green and window 37 may be red. From Fig. I it can also be seen that the incandescent lamps 33, 34 and 35 assigned Windows 36, 37 and 38 are embedded in openings in the housing body, namely in the immediate vicinity of the dial gauge scale, so that the two devices at the same time can be observed.

It is also noteworthy that in the described device the Contact pressure of contact I6 on contacts I8 and 19 un; depends on the Force of the spring acting on the stylus axis 3. If namely the stylus axis is lowered by a certain amount, then the contact 16 touches the contact I8. As the button is lowered further, the lever 9 leaves the lever arm I4 because the Force of the spring of the button axis is greater than that of the spring II. Will however If the button is pushed up by a certain amount, then they touch Contacts I6 and 19. Another shift in this direction causes a lift of lever 12 from stop 8.

For the same reason, a sudden shift in the stylus axis 3 up or down does not damage the transmission mechanism or the contacts cause. The kinematic contact connection between parts 8, 9 and 14 would only be interrupted without impacts or mechanical stresses could occur. In other words, the button can go in either direction without any possibility of damage to travel a way which is greater than the path required to close the contacts.

To set contacts I8 and 19, proceed as follows: First, a calibration gauge with the exact height is placed between the reference surface 39 and the end of button 2 is set. Then you turn the scale division dial gauge opposite pointer 4 until this pointer points to zero. The calibration gauge is now replaced by a gauge, the height of which is just below the permissible lower Toieranzhöhe is equivalent to. The button 2 is now a little lower than before, and the contact I6 has therefore been shifted somewhat to the left compared to the last one taken Position.

The screw head 24 is now rotated until the contacts Touch I6 and I8, causing lamp 33 to light up. The contact for the display of the tolerance minimum you can now after this setting by turning of the handle 28 and thus the blocking of the screw 22 in its position will. The second gauge is now replaced by a gauge, the height of which is just still permissible upper tolerance level, whereby the button in a higher Location is shifted. The contact 19 can now by turning the screw 23 so can be adjusted until it touches contact I6 and thus the circuit for the After the screw 23 has been blocked by means of the handle 28a, lamp 34 is produced the measuring device ready for operation: every checked test object, its height between is within the specified tolerances, causes the signal lamp to light up 35. On the other hand, the lamp 33 lights up if the height is too small, and so does the lamp 34 when the upper tolerance limit is exceeded.

The dial gauge allows direct reading of the overshoot or undershoot of the theoretical value. About the dial gauge for the actual purposes intended for it without being able to use the tolerance indicator, it is sufficient to detach it from the housing body, which does not cause any difficulties, and then to pave the ground again, to protect the mechanical movement of the watch from damage.

Of course, those controlled by the contact device can Relays can also be used to control a machine acting on the test piece.

PATENT CLAIM: I. Measuring device, consisting of a dial gauge and an electrical tolerance indicator with a contact device for the control of tolerance display signals or of relays controlling these signals, which contact device End contacts adjustable according to the tolerances, one movable between them arranged, a contact carrying and acted upon by a spring contact carrier and also a movement of the probe pin on the contact carrier Contains transmission member that is acting under the action of a spring acting on it against the probe pin places in such a way that this contact is interrupted when the moving contact when one tolerance limit is exceeded against the places an end contact, characterized in that the transmission member (g) and the contact carrier (I5) are rotatably mounted independently of one another, while the Transmission member designed as a two-armed lever and under the action of its spring (i i) strives to have one arm against the movable contact carrier and the other Arm against a pin (8) or the like of the probe pin (3) and apply the force the spring (ii) acting on the transmission member is significantly larger than that Force of the contact carrier spring (I7), but significantly less than the force of a den Probe pen against the test object resting spring so that the contact between the transmission element (9) and the contact carrier (I5) when the other is exceeded Tolerance limit is interrupted.

Claims (1)

2. Device according to claim I, characterized in that the tolerance indicator is installed in a housing (6) which can be releasably attached to the dial gauge (1) can, so that after assembly, the transmission member (g) under action its spring (I I) automatically against the pen moved with the probe pen (3) (8) applies. Publications taken into consideration: German Patent Specifications No. 857 446, 807 854, 595 480; German patent application B I0699 IX / 42b.