PL61337B1 - - Google Patents

Description

The subject of the present invention is a connection unit for mining equipment powered by machine frequency converters, which, apart from the main circuit, is equipped with control and control circuits and a time element that delays the automatic switch-off of the converter. There are solutions of this type of devices in which The machine frequency converter is connected to the network with a separate switch, or also with a coupler connected to the switches for connecting the supplied loads to the frequency converter. These known devices have a basic fault, which is that in the first case they are operationally unfavorable long idle periods of the unloaded frequency converter and the associated energy losses and harmful overheating of the windings, caused mainly by the presence of large amounts of heat in the rotor iron, while in the second case, during intermittent operation powered by device inverter There is a high frequency of connections, which also has a very negative impact on the durability of the insulation of the machine windings of the frequency converter. purpose of the invention. This price is achieved in accordance with the invention mainly due to the fact that the switch connecting the frequency converter to the network is controlled by a relay via a time element, which time element, consisting of resistors, capacitor and transistor, contains the selected parameters of these elements that ensure almost instantaneous connection to the network - the frequency converter when any load is connected and disconnecting it from the network after disconnecting all loads with a certain time delay, which ensures continuous operation of the converter at normal The invention will be explained in detail on the basis of an exemplary embodiment of a motorized unit in the diagram, which shows its schematic diagram. The machine frequency converter 4 is connected to the circuit diagram. to the RST network with connector 2, while in the circuit There is a short-circuit protection 1 and an overload protection 3 for powering this converter. The secondary circuit of the frequency converter 4, equipped with an earth-fault monitoring system 13 and a short-circuit protection 5, supplies loads 10, 10a through switches 6, 7 and overload protection. 8.9 of these receivers, the connectors 6, 7, by means of which 613373 61337 4 are connected to the frequency converter, 4 loads 10, 10a, are controlled by the relay system 21 connected to the RST network via the auxiliary transformer 22, the switch 2 of the frequency converter 4 is controlled by a relay 17 excited by a timer, consisting of resistors 15, 18, 20 and a capacitor 19 and a transistor 16, which is powered from the second secondary winding of the transformer 22 through a rectifier 14 The operation of the switching device according to the invention is described below: After the switch 12 or 12a has been connected to the circuit When the diodes L17Ha are located in the vicinity of the loads 10,10a, the relay 21 is activated, controlling the corresponding switch 6 or 7, associated with the given reception 10,10a. The activation of one of these switches 6, 7 closes the auxiliary contact 6a, 7a which closes the base emitter circuit of the transistor 16 and this transistor is driven. Transistor 16 by its reset causes the operation of the relay 17, which activates the switch 2 connecting the frequency inverter 4 to the RST network together with the secondary receiving circuit 10 or 10a, or both, respectively, connected to its circuit, respectively. The invention includes elements selected so that the switching of the relay 17 takes place only with a minimal time delay after the switches 6, 7 of the loads 10, 10a are actuated, while the switching off of these switches 6, 7 realized by the switches 12, 12a does not result in immediate blocking of transistor 16 despite switching off the circuit voltage of its base emitter, because at that time the capacitor 19 is discharged. Thus, the release of the relay 17 and thus the switching off of the switch 2 is delayed in time compared to the time of switching off the switches 6 and 7. The mentioned time delay of releasing the relay 17 depends on the selection of parameters of the resistors 15, 18, 20 and the capacitance capacitor 19. The purpose of the application in the assembly of the earth-fault monitoring circuit 13 is to control the insulation condition of the load network 10, 10a. In the event of an excessive drop in the insulation condition of the loads connected to the group of consumers, this system 13 is triggered, making it impossible to switch on the switches 6, 7, individual loads 10, 10a. PL

Claims (1)

1. Patent claim Connection set for mining equipment, powered by machine frequency converters, containing a short-circuit, overload protection system and an insulation control system, characterized by the fact that the switch (2) connecting the converter to the network (RST) frequency (4) is connected to the relay (17) through a time element, excited by one of the contactors (6, 7), connecting loads (10, 10a) to the secondary circuit of this converter, which is built on resistors (15, 18, 20), capacitor (19) and transistor (16), has elements selected in such a way as to ensure almost immediate switching on of the switch (2) of the frequency converter (4) when switching on one of the switches (6, 7) of the loads and switching off from the mains of this converter (4) with a time delay, ensuring continuous operation of the converter with the normal intermittent duty cycle (10, 10a), as well as the shutdown of this converter (4) with longer interruptions in the work of these receivers. Si Bltk 2911/70 r. 230 copies A4 PL