PL50802B1 - - Google Patents

Description

Published: 8.IV.1966 50802 IC. 21 c, 45/03 MKP Rt) 2 ii UKD Inventors of the invention: engineer Józef Kibitlewski, mgr inz. Zbigniew Ledochowicz, engineer Henryk Zywiol The owner of the patent: Lódzkie Zaklady Aparatury Elektrycznej "Elan", Lodz (Poland) AC plug-in contactor The subject of the invention AC contactor is a plug-in AC contactor The previously used AC contactors in industrial power systems are fastened to the supporting structure by means of screws. The main and auxiliary current circuits are also connected by means of bolts or screws. and maintenance of such a contactor is very troublesome and time-consuming. There are new design solutions for AC plug-in contactors, in which the main and auxiliary current circuit pins are used to simultaneously mount the contactor. The pressure forces on the plugs, due to the ease of installing the contactor, cannot be too large. large and such a solution does not guarantee the maintenance of the contactor in case of strong shocks, especially for large and heavy contactors. The essence of the invention is to replace all screw connections of electric wires with plug connections, which only have the electrical connection, and to replace the contactor's fixing screws by guides with latches located on both sides of the contactor. enables the connection of electric cables by means of screw connections without plugs. The invention will be explained in detail on the basis of the drawing, in which Fig. 1 shows a cross-section through the current circuit, Fig. 2 - front view of the connector, Fig. 3 - rear view of the contactor, Fig. 4 is a front view of the mounting plate, Fig. 5 is a side view of the mounting plate, Fig. 6 is a top view of the mounting plate, and Fig. 7 is a view of the guide with latch fastened to the contactor body. An insulating plate 2 is attached to the metal body 1. In the insulating plate, plugs of main current circuits are mounted. 3. Direct Contacts are permanently fixed to the plugs 4. Under the insulating plate 2 there is a drive mechanism for moving contacts, operated by an electromagnetic drive 5, placed on the side of the current paths 3 and attached to the body 1. Under the electromagnet 5 is attached a multi-socket plug 6 for the plug-in connection of the control circuits and the electromagnet coil to the body 1. The earthing plug 7 is mounted directly in the metal body 1. The sides of the body 1 are fitted with guides with latches 8, which are designed to guide the junction For plug-in current connections and mounting the entire contactor on the support structure. 4, 5 and 6 show the contactor mounting plate which is part of the support structure. It is an insulation board with plug-in sockets for the main current circuits 9, with an earthing plug socket 10, and a multi-plug socket 5080250802 3 input 11 for the connection of control cables. rails 12 cooperating with the guides at the contactor. The lengths of the plug-in elements of the current connections are selected so that when installing the contactor on the board, the earthing plug first contacts its socket, then the main current circuit plugs, and finally the control line plugs. the reverse is true. This makes it possible to replace the contactor even without switching off the voltage in the power system. PL

Claims (5)

Claims 1. An alternating current plug-in contactor, characterized in that the earthing plug (7) is longer than the service plugs (3) or the earthing plug socket (10) is longer than the operating socket (9), thus of the contactor on the supporting structure, the first step is to connect the contactor to the earthing conductor. 2. Contactor according to claim A method according to claim 1, characterized in that the plugs of the auxiliary circuits (6) are shorter than the working plugs (3) or the sockets of the auxiliary circuits (11) are shorter than the operating sockets (9), so that when installing the contactor, the main connection is first obtained main current paths, and then only control circuits. Contactor according to claim A method according to any one of claims 1 and 2, characterized in that the earthing plug (7), the plugs of the main current paths (3) and auxiliary circuits (6) are only used as conductive elements. Contactor according to claim 3. The method of claim 3, characterized in that it is provided with guides (8) and (12) with latches mounted therein. Contactor according to claim 4. The method of claim 4, characterized in that the main current paths (3) are mounted in an insulating plate (2) fastened to the body (1). Contactor according to claim 5. A method as claimed in claim 5, characterized in that the multi-pin plug for control circuits (6) is rigidly fixed to the contactor or suspended on a multi-core wire connecting it to auxiliary contacts and the electromagnet coil. Contactor according to claim 6. The device according to claim 6, characterized in that the fixed contacts (4) are attached directly to the pins (3). Contactor according to claim The method of claim 7, characterized in that it comprises the connection of electric conductors by means of screw connections omitting the plugs. Fig. 2. i \ r "1+ t" i 11+ -H + 4+ -H Fic. 3. Fig. 7.50802 Fig 4. Fig 5. PL