SU775783A1 - Relay device - Google Patents

Description

The invention relates to the field of relay automation and is intended in particular to implement the logical functions of AND and OR. It can be used to monitor the integral 5 phases in a three-phase network, as well as to protect a three-phase load from phase failure.

There is a method of implementing the logical functions of AND and OR in contact circuits, according to which the contacts of the variables are connected in a serial circuit of the product or in parallel - the sum, respectively. However, the relay device based on the use of the contacts of each relay has low reliability associated with the need to connect contact pairs in a serial or parallel circuit and the presence of contact groups of 20 relays.

A relay device is known that contains a base on which at least two AND electromagnetic relays are installed, each of which has its own magnetic system, and the anchors of the electromagnetic relays are mechanically connected. Such a device has a limited application of 30 due to the small number of logical operations performed.

The aim of the invention is to expand the functionality. This goal is achieved by the fact that in a relay device containing a base on which at least two electromagnetic relays are installed, each of which has its own magnetic system, and the anchors of the electromagnetic relays are mechanically connected, introduced microswitch, angle brackets according to the number of electromagnetic relays, each of which is mounted on the armature of one of the electromagnetic relays, hinged mechanisms also according to the number of electromagnetic p le and common bracket with an adjusting mechanism via a common bracket hinge mechanisms linked with said brackets and is set to act on the microswitch. In this case, the adjusting mechanism is made in the form of a screw and a centering nut.

In Fig = 1 shows a relay device; in FIG. 2 - the same, top view; in FIG. 3 - circuit diagram of use ·

775763 devices to protect the motor from phase failure.

In this device, the microswitch 1 is fixed to the base 2, ’on which are also placed electromagnetic relays 3 according to the number of variable departures. Using their angles-holders 5, their movable parts 4 are connected to a common bracket 6, on which an adjusting screw 7 with a lock nut is installed 8. The connection points of the moving parts 4 with a common bracket 9 are pivotally with swivels and fixed with pins 10. Each electromagnetic device is equipped with the limiter 11 of the armature stroke, the adjusting screw with a spring 12, the magnetic circuit 13, the control winding 14. The adjusting screw 7 has a cap 15 at the end that acts on the microswitch 1, fixed with holder 16 on the base 2.

The protection circuit of the electric motor M (Fig. 3) is connected to the network using a magnetic starter P1 through the button Kn. The relay protection device P2 is connected to the power supply circuits of the electric motor and contains the resistors for adjusting the operation current P1-RP connected in series to the circuit of each control winding ..

The relay device for implementing the logical functions AND and OR works as follows.

To implement the logical coincidence function AND, the device is adjusted using the adjusting screw 7 so that the microswitch 1 is closed when all parts 4 are in an drawn state. In this case, the signal at the output of the device will be when three signals are simultaneously present at the input. The absence of a signal at least one of the outputs will ensure the disappearance of the output signal. When using the device for three inputs, the angle between the points of attachment of the electromagnetic relay 3 to the common bracket 9 will be _{% i} = 120 °. Obviously, with two inputs, this angle will be = 180 °, and the bracket will have the shape of a rectangular plate. The points of attachment will lie at the ends of the diameter of the circle, in the center of which a screw 7 is installed, acting with a hat 15 on the microswitch 1.

When implementing the OR function, the device is adjusted using screw 7, so that microswitch 1 is turned on when at least one relay 3 is triggered. The signal will be output when it is supplied to one of the inputs. The failure of the contacts of the switch 1 should be sufficient to ensure the progress of the bracket 6 when applying signals to all inputs at the same time.

The relay device is configured to implement the AND function, as described above, and is connected to. magnetic starter to motor switching terminals. When one of the phases disappears, the voltage on the corresponding winding of the electromagnetic device 3 decreases, its movable part 4, carried away by the opposing, electromagnetic forces, the moment of the spring 12 will return to the position defined by the limiter 11 of the armature of the rotary part 4. Switch 1 at this its contact (P2) in the interlock circuit of the magnetic starter P1. The latter will disconnect the motor from the network. Resistors P1-RZ regulate the setting of the operation currents and release of electromagnetic relays 3.

Claims (2)

The invention relates to the field of relay automation and is intended in particular for implementing logical functions AND and OR. It can be used to monitor the integrity of phases in a three-phase network, as well as when protecting a three-phase load against phase loss. The known method of implementing logical functions AND and OR in contact circuits, according to which the contacts of variables are connected in a series product or in parallel, the sums, respectively. However, a relay device based on the use of the contacts of each relay possesses low reliability of operation associated with the need to connect contact pairs into a series or parallel circuit and the presence of contact groups for each relay. A relay device is known that contains a base on which at least two electromagnetic relays are installed, each of which has its own magnetic system, and the measles of the electromagnetically controlled relays are mechanically interconnected. Such a device has a limited application due to the small number of logic operations performed. The aim of the invention is to expand the functionality. The goal is achieved by the fact that a relay device containing a base on which at least two electromagnetic relays are installed, each of which has its own magnetic system, and the measles of electromagnetic peJK are interconnected mechanically, microswitch, corner brackets introduced by the number of electromagnetic relays, each of which is installed on the cortex of one of the electromagnetic relays, and articulated mechanisms also by the number of electromagnetic relays and a common bracket with an adjusting mechanism, a common bracket by means of hinge mechanisms connected with said brackets and mounted to act on a microswitch. In this case, the adjusting mechanism is made in the form of a screw and a centering nut. Fng 1 shows a relay device; in fig. 2 - the same, top view; in fig. 3 is a circuit diagram of the use of the device in order to protect the motor against phase failure. In this device, the microswitch 1 is fixed on the base 2, on which the electromagnetic relays Zpo are also placed on the number of variable strokes. Their movable parts 4 are connected with the help of square holders 5 to the common bracket 6, on which the adjusting screw 7 is installed with a lock nut 8. The points of connection of the movable parts 4 with the general bracket 9 are hinged with swivels and fixed with pins 10. Each electromagnetic the device is equipped with a stop 11; turn bore, an adjusting screw with a spring 12, a magnetic conductor 13, a control winding 14. The adjusting screw 7 has a plug 15 at the end, which acts on the microswitch 1, fixed with th holding bodies 16 on the basis of the protection circuit 2. The motor M (FIG. 3) incorporated in the network via magnetic .puskatel P1 through Kn button. The relay protection device P2 is connected to the power supply of the electric motor and contains the resistors for adjusting the pickup current P1-РЗ connected in series to the circuit of each control winding. The relay device operates as follows to implement the logical functions AND and OR. In order to realize the logical coincidence function, the device is adjusted with the help of an adjusting screw 7 so that the microswitch 1 is closed when all parts 4 are in a tight state. In this case, the signal at the output of the device will be when three signals are simultaneously present at the input. The absence of a signal at least at one of the outputs will ensure that the output signal disappears. When using the device for three inputs, the angle between the points of attachment of the electromagnetic relays 3 to the common bracket will be equal to 120 °. Obviously, with two inputs, this angle will be equal. f i | 0 180 °, and the bracket will have a right angle plate. The points of attachment will lie at the ends of the diameter of a circle, in the center of which a screw 7 is installed, acting on the microswitch 1 on the cylinder 15. When implementing the OR function, the device is adjusted using screw 7, so that one relay 3. The output signal will be when it is fed to one of the inputs. In this case, the failure of the contacts of the switch 1 should be sufficient to ensure the movement of the bracket 6 when signals are applied to all inputs simultaneously. A relay device is configured to implement the AND function, as stated above, and is attached in. magnetic starter to engine commutation terminals. When one of the phases disappears, the voltage on the corresponding winding of the electromagnetic device 3 decreases, its movable part 4, carried away by opposing electromagnetic forces, returns to the position of the spring 12 in the position determined by the limiter 11 of the rotary part 4. contact (P2) in the blocking circuit of the magnetic actuator P1. The latter will disconnect the motor from the network. Resistors P1-RZ regulate the setting of the currents of operation and release of electromagnetic relays 3. Claim 1 D 1. A relay device containing a base on which at least two electromagnetic relays are installed, each of which has its own magnetic system, and are mechanically interconnected, so that, in order to expand the functionality, a microswitch, corner brackets are introduced according to the number of electromagnetic relays, each of which has n in the cortex of one of the electromagnetic relay, the hinge mechanisms, also according to the number of electromagnetic relays and a common bracket with an adjusting mechanism via a common bracket hinge mehanzMov associated with ukazannymk angled brackets and mounted to act on the microswitch. 2. The device according to claim 1, characterized in that the adjusting mechanism: the valve is made in the form of a screw and a centering nut.