DE1763615B2 - COINCIDENCE CIRCUIT - Google Patents

Description

The invention relates to a coincidence circuit, in particular for a sentence search device on controls with perforated tape input, below use of switches with one working and one a normally closed contact for each point of comparison of the setpoint value, whose inputs are shared on a coincidence relay are connected, and their outputs each with a switch for the actual value in each Reference junction are connected, which are also in the circuit for a coincidence relay.

A search facility for a particular record is required in order to be able to resume a work operation after a previous interruption, find the associated program part (block) in the punched tape to be able to.

Hs are known coincidence circuits with switches in each position to be compared in the target * or actual value are provided. In the simplest case, the switches each have a changeover contact, with the middle springs of the switching contacts of the setpoint value are on a common line, which for example is connected to the excitation winding of the coincidence relay. The middle springs of the shift Contacts of the actual value are also connected to a common live line, tn each reference junction are the normally open contact of the switch for the setpoint value with the normally closed contact of the switch for the actual value and vice versa, so that a circuit from each reference junction for the coincidence relay can be closed. If both switches are located at a reference junction, i.e. the switch for the setpoint value and the Switch for the actual value, in the same position, i.e. H. in their resting or working position, then it is in this one Reference junction of the circuit for the coincidence relay interrupted. With different contact positions the switch in a reference junction, on the other hand, closes the circuit for the coincidence relay. Since each reference junction for the coincidence relay can form a parallel circuit, the coincidence relay will only drop out when the contacts of the switches in each reference junction have occupied the same positions.

Relays are often used to represent the actual or target value because they are simpler Way can be included in a control. To ensure that the relay circuit is as reliable as possible The aim is to use simple ReIaK with few contacts. There are also relays known, their contacts to increase the service life and thus the func-tional safety under Working shielding gas. These relays usually only have two working contacts. Inert gas relay with a larger one The number of contacts are in turn more susceptible to failure and, moreover, more complex.

The aim of the invention is to create a coincidence circuit which is functionally reliable and has a simple structure is.

The object of the invention is to provide a coincidence circuit, in particular for a sentence search device on controls with perforated tape input, using switches with one working and one a normally closed contact for each equalization point of the target value, the inputs of which are jointly connected to a coincidence relay, and their outputs be connected to a switch for the actual value in each reference junction, which is only equipped with normally open contacts for the actual value.

According to the invention, the object is achieved in that the switch for the actual value has two working contacts, the first working contact with the normally closed contact of the switch for the setpoint value is connected, its normally open contact in series via a diide and a resistor form another circuit for the coincidence relay, the second working contact of the switch for the actual value parallel to the series connection of the coincidence relay with the diode is arranged. In the event that there is a relay with a self-holding contact in each reference junction of the actual value is provided. the resistance is preferably formed by the excitation winding of the relay and the coincidence relay, an amplifier with a resistance to the field winding of the relay high-ohmic input resistance «i upstream. The self-holding contact of the relay also takes over the function of the parallel to the Coincidence relay and the diode arranged normally open contact.

Exemplary embodiments of the invention are shown in the drawings. It shows

F i g. 1 a circuit arrangement with two normally open contacts per digit of the actual value,

2 shows a circuit arrangement with two ar-

working contacts per digit of the actual value under Use of memory relays.

A coincidence relay 1 is connected to its field winding on the live line. The indicated contact 1.1 of the coincidence relay 1 is in a display circuit, not shown, for the coincidence of the comparison between setpoint and actual value. In each reference junction 2 to 5, a changeover contact 6 to 9 is provided for the setpoint value Entrance shared with the entrances of everyone else in Changeover contacts 6 to 9 are connected to the excitation winding of the coincidence relay 1. For the actual value there are two normally open contacts 11 to 18 in each reference junction 2 to 5. The normally closed contact each changeover contact 6 to 9 of the setpoint value is in each reference junction 2 to 5 with the associated one Normally open contact 12; 14; 16; 18 of the actual value. The working contacts 12; 14; 16; 18 of all comparison points The outputs of 2 to 5 are connected to the line carrying negative potential. The working contact each changeover contact 6 to 9 of the target value is in each comparison part via an in Forward direction polarized diode 19 to 22 on a normally open contact 11; 13; 15; 17 connected for the actual value, where the outputs of the normally open contacts as 11; : 13; 15; 17 of all comparison junctions 2 to 5 on the Line carrying positive potential. The diodes 19 to 22 also have a resistor 23 to 26 downstream. The resistors 23 to 26 of all comparison points 2 to 5 are connected to their second connection on the line carrying negative potential.

In the exemplary embodiment according to FIG. 2, comparison points 2 to 5 are again provided for the setpoint or actual value, a changeover contact 6 to 9 also being arranged for the setpoint value in each comparison point 2 to 5. The inputs of the switchover contacts 6 to 9 are connected to the excitation winding of the coincidence relay 1 via an amplifier 10. A relay 27 to 30 with two alarm contacts 11 to 18 is arranged in each reference junction 2 to 5 for the actual value. The break contact of each changeover contact 6 to 9 of the setpoint value is in each setting 2 to 5 with a make contact 12; 14; 16; 18 of the actual value. The outputs of the working contacts 12; 14; 16; 18 of all comparison junctions 2 to 5 are connected to the negative-voltage line. The working contact of each changeover contact 6 to 9 is also in each comparison junction 2 to 5 via the diode 19 to 22 polarized in the forward direction to one; m working contact 11; 13; 15; 17 of the relays 27 to 30 connected for the actual value, the outputs of the normally open contacts 11; 13; 15; 17 of all comparison junctions 2 to 5 are connected to the positive potential leading Le device. In each comparison point 2 to 5, the diode 19 to 22 is also followed by the excitation winding of the relay 27 to 30, which is also connected to an additional memory input 31 to 34. The exciter windings of the relays 27 to all comparison points 2 to 5 are connected to the negative potential with their other connections

■ w

Management. A common reset contact 35 is switched on in the self-holding line of the relays 27 to 30, The operation of the circuit arrangement is as follows; The Koinztdenzrelais receives no voltage, if 2 to 5 target and actual values match in each reference junction. This is the case with closed Normally closed contact of the changeover contact 6 to 9 for the setpoint value and open normally open contact 12; 14; 16; 18 for the actual value or vice versa when the normally open contact of the changeover contact 6 is closed to 9 for the target value and closed normally open contact 11; 13; 15; 17 for the actual value.

If the setpoint and actual value do not match in one or more reference junction 2 to 5 the circuit for the coincidence relay 1 is closed, with which the contact 1.1, for example, the circuit for an indicator light closes. When the normally closed contact of the changeover contact 6 to 9 for the target value and closed working contact 12; 14; 16; 18 for the actual V'ert the circuit is over Negative line, work contact 12; 14; 16; 18 normally closed contact of the changeover contact 6 to 9, coincidence relay 1, positive line closed. Lei closed Working contact of changeover contacts 6 to 9 of the setpoint value and open working contacts 11 to 18 of the actual value is the circuit via negative line, resistor 23 to 26, diode 19 to 22, normally open contact of the changeover contact 6 to 9 for the target value, coincidence relay 1, positive line built up.

With the normally closed contact of the changeover contact 6 to 9 for the setpoint value and open normally open contacts 11 to 18 for the actual value, the circuit for the coincidence relay 1 is interrupted. With closed working contacts of the changeover contact 6 to 9 for the setpoint value and closed Make contacts 11 to 18 for the actual value is a circuit via negative lead, resistance 23 to 26, diode 19 to 22, normally open contact of the changeover contact 6 to 9 for the setpoint value, coincidence relay 1 and positive line built up, but the coincidence relay 1 is not excited because the working contact 11; 13; 15; 17 the respective current path from diode 19 to 22, normally open contact of the Changeover contact 6 to 9 for the target value, coincidence relay 1 short-circuits.

In the circuit according to FIG. 2, instead of the resistors 19 to 22, the field windings are the same the relays 27 to 30 switched on. The relays 27 to 30 are provided for storing the actual value. The working contacts 11; 13; 15; 17 for the actual value have in addition to the function of the short-circuit contact for the coincidence function at the same time the function of the self-holding contact for the assigned relays 27 to 30. The prerequisite here is that the excitation winding of the coincidence relay high resistance to the field winding of the relay 27 to 30 is. This condition becomes easier in Way fulfilled by connecting the amplifier 10 in front of the excitation winding of the Koiftzidenzrelais 1. as Amplifier 10, a transistor amplifier in a collector base circuit with a transistor is sufficient.

1 sheet of drawings

Claims (2)

Claims; 1. Coincidence circuit, especially for a block search device on controls Perforated tape input, using changeover contacts for each reference junction of the target value, whose center springs are connected together to a coincidence relay, and whose Outputs are connected to a switch for the actual value in each reference junction, which are also in the circuit for a coincidence relay, characterized in that that the switch for the actual value has two working contacts (11; 12 or 13; 14 or 15; 16 or 17; 18), the first normally open contact (12; 14; 16; 18) with the normally closed contact of the changeover contact (6 to 9) for the setpoint value is connected, its normally open contact in series via a diode (19 to 22) and one Resistor (23 to 26) forms a further circuit for the coincidence relay (1), the second working contact (11; 13; 15; 17) of the switch for the actual value parallel to the series connection of the coincidence relay (1) with the diode (19 to 22) is arranged. 2. Coincidence circuit according to claim 1, in which a for the actual value in each comparison junction Relay with self-holding contact is provided, characterized in that the resistor (23 to 26) is formed by the excitation winding of the relay (27 to 30) and the coincidence relay (1) an amplifier U '*) with a ^ m opposite the Resistance of the excitation winding of the relay (27 to 30) is preceded by a high-impedance input resistance is, the self-holding contact of the relay (27 to 30) at the same time the function of the parallel to the coincidence relay (1) and the diode (19 to 22) arranged working contact (11; 13; 15; 17) takes over. 40