PL85152B1 - - Google Patents

Description

The subject of the invention is a device protecting a rotating machine, in particular a device that prevents the rotor from axial displacement of the rotor. the output auxiliary relay acts as a power amplifier. The winding of the output intermediate relay is connected to the power source via the shorting contact of the sensitive relay, and the electromagnet of the disconnecting device of the rotor machine is connected through the shorting contact of the output intermediate relay. Such a device protecting the rotor machine against axial displacement of the rotor may operate in a false manner and disconnect the rotor machine in the event of an accidental, even short-term increase in voltage in the supply circuit of an inductive sensor or by mechanical shocks of a sensitive pyreephrine. This is explained by the fact that the setting of the protection operation is chosen too close to the normal axial position of the rotor and the reverse current of the sensitive relay is less than the current of the inductive sensor, equal to the current in the relay winding at the normal axial position of the rotor. Therefore, if the sensitive relay is triggered even in a short time by the accidental factors mentioned above, not related to the unacceptable axial displacement of the device, then after the end of this accidental factor causing the sensitive transmitter to work, the latter does not release, the protection will operate incorrectly and disconnect the machine. The aim of the invention is to eliminate the false operation of the rotor machine protection against axial displacement of the rotor due to accidental factors causing short-term operation of a sensitive relay. The invention aims to develop a simple system of securing the rotor machine against axial displacement of the rotor on straight elements, ensuring the return of the sensitive transmitter as soon as the accidental factors that caused its false operation ceased to work. This problem was solved in such a way that in the device securing the rotor machine against axial displacement the rotor, containing the displacement inductive sensor, a sensitive relay, the winding of which is connected to the output of the said inductive sensor, and the power amplifier is switched on through the contacts of the green index pin, which gives the control signal to disconnect the rotor machine. according to the invention, the power amplifier is made in the form of a timer, and the device itself is provided with means for reducing the level of the signal supplied to the sensitive element during the operation of the timer. It is desirable that the means of reducing the level of the sensitive relay signal is a resistor connected in parallel to the sensitive relay winding through the shorting contact of the intermediate relay, the winding of which is connected in parallel to the winding of the timer. The presented device securing the rotor machine against axial displacement of the rotor is simple in terms of construction, reliable in operation and excluding the possibility of false activation of the protection and disconnection of the rotor machine under the influence of the most common in practice factors, not including the axial suction. The subject of the invention is presented in an example of an embodiment in the drawing, in which Fig. 1 - shows the "circuit of the sensitive relay winding, fi ^^ - ^ - shows the circuits of the windings of the timer and intermediate relay, fig. 3 - shows the circuit of the electromagnet of the switch of the rotor machine. "The induction cylinder 1 is located close to the protrusion of the machine rotor, not shown in the figure. The sensor 1 is connected to the winding 2 of the sensitive relay 3 as well as the rectifier 4 and the resistor 5. The winding 6 of the time relay is connected to the DC source via the shorting contact 7 of the sensitive relay 3. Parallel to the winding 6 of the time relay is the winding 8 of the relay. Parallel to the making contact 7 of the sensitive relay 3, a self-holding circuit and a time-delay circuit, composed of a serially connected circuit of the break contact 10 of the time relay and the break contact 11, is connected. The second shorting contact 12 of the timer is provided in the power supply circuit of the electromagnet 13 of the rotor machine (not shown in the drawing). Parallel to the sensitive relay 3, a circuit is connected, consisting of the closing contact 14 of the intermediate relay and the resistor 15 connected in series. The device shown operates as follows. When the rotor of the water machine is displaced axially, for example due to the melting of the tin, the signal from the diniductive sensor 1 is applied to the sensitive relay 3. Tenze will actuate and with its short-circuiting contact 7 the timer is switched on, supplying power to it. windings 6. The timer will close for some time its shorting contacts 4 in the self-backwash circuit and 12 in the electromagnet 13 circuit of the rotor machine switch and the rotor machine disconnects. Simultaneously with the supply of power to the winding 6 of the timer, power is also supplied to the winding 8 of the intermediate relay, which operates immediately and closes its short-circuit contact 14. After the timer has actuated, its break contact 9 disconnects the intermediate relay. In order to return the protection circuit to its initial state, a reset button is activated, the contacts of which break the timer and the entire protection circuit returns to its initial state. If the sensitive relay 3 operates false under the action of any random factor, not related to the axial displacement of the rotor, for example in the case of a short-term increase in voltage or mechanical shock, then after the end of the indicated factor, the sensitive relay 3 of the bush. of the relay 3 is ensured that it is bypassed by the resistor 15 after the mediating relay has tripped. Since the time delay of the operation of the timer is set much greater than the operation time of the random factors causing the false delay of the sensitive relay 3, the rotating machine will not be turned off. PL

Claims (2)

Claims 1. A device securing the rotor machine against axial displacement of the rotor, comprising an inductive displacement sensor, a sensitive relay, the winding of which is connected to the output of the replaced inductive sensor, and a power amplifier is connected through the contacts of the sensitive relay, giving a control signal to the connecting a rotating machine, characterized in that the power amplifier is made in the form of a timer, and the device itself is provided with a means for reducing the level of the Signal supplied to the sensitive relay for the duration of the timer operation. 45 2. The device securing the rotor machine against axial displacement of the rotor according to claim The method of claim 1, characterized in that the means for reducing the signal level of the sensitive relay (3) is a resistor (5) connected in parallel to the winding (2) of the sensitive relay (3) through the shorting contact (14) of the intermediate relay, whose winding (8) is connected in parallel with the winding (6) of the timer. 85152 Fig. y L. ¦ ~ Kj M + 7 ^ '(//, 9 «% 3 9 a PL