DE745880C - Switching device for the good signal transmitter in length tolerance key devices with electrical signal control contacts - Google Patents

Description

Switching device for the good signal transmitter in length tolerance sensors with electrical signal control contacts There are tolerance sensing devices known in which exceeding or falling below the tolerance limits of workpieces the closure causes electrical contacts, which in turn trigger signals.

Electric light bulbs are generally used as signal transmitters. In order to avoid damage to the contacts of the touch probe by the electrical current, Such a device does not switch the signal lamps directly, but via fine relays.

In practice it is required that instead of the committee lamps one The good lamp lights up when the workpiece to be tested is within the given tolerance lies. So far, relays with two contacts have been used to meet this requirement equipped. One of these contacts is closed when the relay is energized and accordingly switches the reject lamp, while the other contact is de-energized Relay switches the good lamp. This well-known circuit is shown schematically in Fig. I shown. The button of a tolerance sensing device is designated by I, which a lever 2 moves, which in turn closes the contact 3 or the contact 4. via contact 3, which is closed when the tolerance limit of the workpiece is exceeded, the fine relay 5 is switched on, which via the relay contact 6 turns on the plus reject lamp 7. Is the tolerance limit of the test Workpiece is not reached, the fine relay 8 is switched on by contact 4.

The minus reject lamp is activated via the contact g of this fine relay I8 switched on.

If, on the other hand, the workpiece is within the prescribed tolerance, so neither contact 3 nor contact 4 is closed. The two fine relays 5 and 8 therefore remain de-energized. Your armatures close the contacts when the relay is de-energized Io and ii. As a result, the current of the power source 12 flows through the armature of the relay 8, through the contact 10 to the armature of the relay 5 and through the relay contact II the good lamp I3 back to the power source.

This known circuit has the disadvantage that the fine relay with double contact must be equipped. It can with such Tolerance buttons only switch extremely weak currents, otherwise The contacts become charred. The second contact on the fine relay is conditional but a higher current consumption of the relay if this is to work safely. aside from that the construction of the relay becomes much more complicated by this second contact. As can be seen from the circuit diagram, both the lamp 7 and the lamp I3 switched via two relay contacts. This double contact switching reduces easily the reliability of the device, since the contact pressure on the relay anyway is only extremely small.

To remedy these evils, according to the invention, committee and Good signal transmitter connected with resistors to a compensation circuit, that when the reject signal generator is switched on, the terminal voltage of the good signal generator Becomes zero. In addition 2 this switching device is shown. The fine relays 5 and 8 each have only one contact 6 and 9, through which the signal lamps 18 and 7 depending on the position of the button, which is not shown in this figure will. The current source 12 is closed by a resistor 14. This resistance has a center tap 16 on which the good lamp 13 is located. The other side the good lamp I3 is connected to the current source 12 via the resistor I5. the The size of the resistor 15 is equal to the resistor size of the lamps 18 and 7, respectively. The resistor 15 is also connected to the armatures of the relays 5 and 8.

If the workpiece to be tested is now within the prescribed range Tolerance, relays 5 and S remain de-energized. This keeps the contacts 9 and 6 are open, so no current can flow through lamps 18 and 7. Well but a current z-on flows from the current source through the resistor 15 and from the good lamp I3 back to the power source via one half of the resistor 14. The good lamp So in this case I3 will burn. If, on the other hand, the workpiece is now outside the tolerance, one of the two relays 5 and 8 will attract its associated armature, whereby the contact 6 or the contact 9 are closed.

A current now flows from the power source through the resistor 15 through the lamps 7 or 18 back to the power source.

Since the resistance of the lamp 18 or 7 is just as great as the resistance 15 and the center tap of the resistor 14 this resistor in exactly two equal Parts, the potential between points t6 and 17 becomes zero. The lamp I3 so remains de-energized. The circuit represents a Wheatstone bridge, whose four branches from one half of the resistor 14, from the lamp 7 or 18, the Resistor 15 and the second half of resistor 14 are formed. The good lamp I3 lies in the diagonal of this bridge, while the current source 12 is in the other Diagonal lies.

In the prasis it will of course not be possible to achieve perfect equality the resistances of the lamps 7 or I8 and the opposing stand 15 to achieve. It will that is, when the reject lamp 18 or 7 is switched on, between points t6 and I7 there is little potential. However, this is not sufficient for the good lamp 13 to flare up. When using an AC transformer as a power source The transformer winding has a WIittelabgriff for the signal lamps. It can so in this case the resistor 14 can be dispensed with.

Electrical tolerance devices of the type described are often too Multiple devices shown interconnected, so that several Älaße of a Werlistückes can be checked in one operation. A button is then provided for each dimension, which operates a plus reject relay and a negative reject relay. The requirement In such devices, with respect to the good lamp, there is only one good lamp is provided, which lights up when all dimensions are within the tolerance, all relays thus remain de-energized.

To meet this requirement, the relay with two Equipped contacts and the switching points of the armature also isolated from each other. The current of the good lamp therefore had to flow through all relay contacts. Such a circuit is therefore susceptible to failure as described above in the case of multiple switching devices still much larger than with single switching devices.

In addition, the relays are still insulated by the armature contacts more complicated than with the simple devices. In itself could also be used for such a circuit find the circuit according to the invention described above use; however would here the adjustment of the individual resistances cause difficulties, and in addition, the load on the lamp power source would be disproportionately large.

In such multiple touch devices with a common good signal transmitter is according to the invention in the reject signal circuit current sensitive Relay arranged, the armature of which switches the good signal transmitter. In this circuit arrangement Illustrative Fig. 3, the plus reject relays are denoted by 5, while the Minus committee relay with 8 are designated. The minus look lamps are accordingly with I8 and the plus committee lamps with 7 designated. From the power source 12 flows now a current, if any of the relays is energized, through any of the reject lamps via a relay 19 back to the power source. The relay 19 is a current sensitive Relay, d. H. so, its resistance is extremely low. As soon as the relay I9 is traversed by the current, it attracts its armature 20 and thereby interrupts the contact 2I, whereby the good lamp I3 is de-energized. The deadly reject lamps go out 7 and IS, because the workpiece is within tolerance, so will the relay 19 de-energized.

The armature 20 thereby closes the contact 21, whereby the good lamp 13 is traversed by the current from the current source I2.

In many cases, such devices are connected to an alternating current network. In such cases, the signal lamps are supplied with alternating current via a Transformer. The good lamp relay must be built in such a way that there is only little energy consumed so that the lamps do not lose too much energy. Such relays work generally bad with alternating current.

Of course, you can add a rectifier to the lamp circuit place so that it is fed with direct current. But that's impractical because the rectifier is too extensive due to the relatively high amperage would. For such cases, according to the invention, there is a reject signal circuit Transformer arranged with a low voltage drop, on the secondary side over Rectifier a voltage-sensitive fine relay is connected, the armature of which the good signal transmitter switches.

So a transformer is connected in series with the signal lamps, whose primary winding has a very low resistance, so that at its terminals a voltage drop of only a few tenths of a volt occurs. This is on the secondary side Transformer wound so that it has a terminal voltage of 4 to 5 volts, you can use a rectifier on the secondary side with a precision relay switch on which activates the good lamp.

Claims (3)

P A T E N T A N S P R Ü C H E: I. Switching device for the good signal transmitter for length tolerance probes with electrical signal control contacts, characterized in that that reject and Gutsignalgeber such with resistors (I4 and I5) to a compensation circuit are switched so that when the reject signal generator is switched on (7 resp. IS) the terminal voltage of the good signal transmitter (I3) becomes zero. 2. Switching device for the good signal transmitter with multiple length tolerance sensors with electrical signal control contacts, characterized in that in the reject signal circuit a current-sensitive relay (19) is located, the armature (20) of which the good signal transmitter (I3) switches. 3. Apparatus according to claim 2, characterized in that in the Reject signal circuit is a low-voltage-drop transformer whose secondary side is connected to a voltage-sensitive fine relay via a rectifier rist, whose anchor switches the good signal transmitter. To distinguish the subject of the application from the state of the art are no publications were considered in the granting procedure.