PL46491B1 - - Google Patents

Description

Contactors provided with a rotating shaft on which the armature of the working electromagnet and the arms of the movable contacts are transversely located are widespread. The present invention relates to the improvement of electromagnets of this type of contactors, mainly aimed at ensuring the long life of the excitation coil and enabling its rapid operation. These improvements have the further advantage of allowing the contactors to be more easily adapted to their service needs, allowing the arrangement of the contactor components to be rearranged or the number and arrangement of the contactors to be changed. It is known that in working automatic devices (machine tools, discharging devices) the contactors operate at a very high frequency, and that they should be designed in such a way that they could make several million turns on without causing mechanical damage. In contactors whose electromagnet is energized with alternating current, each time the circuit is closed, the armature of the electromagnet strikes the yoke in the manner of a hammer. This shock is transmitted to the excitation coil and on to the current-conducting wires connected to the coil. Repeated impacts may damage the coil or break said lead wires. The object of the present invention is above all elements which protect the coil as much as possible from such impacts. According to a first feature of the invention, the coil body is held firmly in place. distance from the yoke by means of at least one V-bent spring belt, which is fastened to the middle part of the yoke, and the other two arms of which are bent towards each other in in a V-shape so that only the tops touch the yoke arm, while the outer ends of the bent arms only touch the outer wall of the coil body. Preferably the inner wall of the coil body is provided with two arranged grooves facing each other in order to accommodate the arms of the springing strip. The contactor of the invention comprises a metal rod with a rectangular cross-section It is provided with pins at its ends and to which the arms of the movable contacts and the armature of the electromagnet are attached. According to another characteristic of the invention, the rod comprises only one threaded hole intended for the mounting of the armature and one end pin of the rod. One of the pivots at the end of the rod is integral with a supplementary element which also serves as an intermediate support for the armature of the electromagnet. In the most preferred embodiment of the invention, the armature is freely mounted in a known manner inside the housing with section of the C-section, and the above-mentioned complementary element is a pressed element, mounted in a C-shaped mount and held by a tubular gripper placed in the corresponding openings of this element and the mount, which enables passage through the holes of the bolt fastening the assembly to the rod. In this way, unscrewing this one screw allows the armature of the electromagnet to be released, and its reassembly is facilitated by the fact that the individual elements to be mounted on the bar are held as a unit by this very gripper. it is, in a well-known manner, extended by a threaded spindle, changing its tension with a high friction adjusting nut and locking washers. The armature housing includes a cutout to receive the threaded pin in such a way that the disengagement of the armature and base can be done without unscrewing the adjusting nut. Change of the spring return tension is done at the factory with a high friction nut, and if necessary an additional rule For example, in the case of adding additional contacts controlled by the same electromagnet, according to a previously prepared explanatory plate, one or more locking washers can be placed under the nut in order to perform the adjustment. 1 is a front view of a contactor electromagnet assuming that the electromagnet is mounted on a vertical wall, Figure 2 is a side view in the direction of the arrow II in Figure 1, Figure 3 is a top view of the electromagnet. Fig. 4 is a section on the plane marked with the line IV-TV in Fig. 2, Fig. 5 - a section on the plane marked with the line V-V in Fig. 1, the armature of the electromagnet and its holder, Fig. 6 is a view from the bottom of the electromagnetic armature of the magnet and its holder, Figs. 7 and 8 are sections in the planes indicated by lines VII-VII and VIII-VIII in Fig. 2, Fig. 9 is an axonometric view of the spring gripper. The yoke of the electromagnet shown in these figures is mounted on a metal the plate 1, which is in turn fastened with screws 2 or to the pedestal, or to the stationary bar 3, which is the support structure of the contactor. The E-shaped yoke is made of two symmetrical bundles 4a and 4b of sheets placed one on top of the other attached to two b middle plates 5 (Fig. 3), whose bent edges 5a form tabs fastening the yoke to the metal plate 1. Opposite the middle arm of the yoke there is a convex transverse groove in the tabs 5a (making this groove in the folded tabs Sd is enabled by the holes 7). Fig. 4) holds the spring base of a strap 8, which is approximately U-shaped, the arms of which are in turn bent in the shape of the letter V, with the vertices facing both; The ends of the arms Sa are also bent outwards in the places marked 8b. Around the middle section 9 of the yoke and the arms Ba of the spring belt, the body 10 of the coil with U winding is inserted. The arms 8a engage in the internal grooves 10a of this body and then the tips 8c bend V-shaped arms are pressed only against the outer walls of the middle arm 9 of the yoke, the body 10 occupies a balanced position over-Hanging * rock ends It has weak end * ends in the shape of a V-cut This * UW coil body does not touch the winding The strokes it receives are transmitted only through the spring belt 8 * which, due to its low mass and its elasticity, dampens them to a large extent. To insert or remove the coil, it is enough to press on the bent parts 8b of the spring belt. jumper, which forms the coil interlock in order to insert them into the grooves Ha. The coil flange 10b facing towards the end of the yoke arm is provided with the coil switching terminals 15 and 14 to which the coil power cables are attached. may be controlled by a "normal impulse button" by means of a contact fS, which may be located on one or the other terminal 14, 15, and which makes a contact for the supply of this coil cooperating with the movable contact 26 in order to maintain the driving current in the coil of the general electromagnet the armature is in the pulled position.In this case, in order to open the contactor, it is obviously necessary to temporarily break the supply circuit through the contact J by means of another button. The moving part of the electromagnet (Fig. a and f) contains the armature 17, which the same as the previous one, it is made of a bundle of loose-fitting metal sheets mounted inside the fixture 18. This fixture, in a known manner, holds the fastener 17 with a hook with its free end. a 4ta and the inserts 19 of a flexible material, such as rubber. It should be noted that the end of such I # b is bent transversely so that the armature 17 may be fixed in this direction as well. At its other end, the armature 17 is held by the edges 20a of the element 2 $, made of a pressed and aotolating material, which is facing the hook fox. The item 20 is suspended from the fixture by the force of the spring gripper 24 shown in the axonometric view in Fig. This gripper, cut from a sheet of spring steel, is essentially a field-shaped tube cut at its ends to form on one side two small flat and stiff tabs 21u, placed in two small depressions pressed into the outer surface of the frame 1S, and on the timgie side - two long springing tabs 21b, the ends of which are shaped like a catching pike; 1Toui * | al these aawasaiejece the end of the hole £ fnnriaa ^ avaaA * 4g £ L ^ Ba ¥ rwe ^ aaaao4ii JMK ^ assenFida ^ n * 1 aym'w uliiom wUu'JL tlaawycfc lBonoaczt ^ lomesA-W aaapaItauoiy is ponatts * Kfl * l) in which outcomes enters dies and »ojprati» r ** WreoTOte aulom * after * entrances liaoaiaiii.1 & enters pnet H after * roartussan £ § £ Those parts of the tteaeMta JO that were recently wrapped are all satnetted in relation to the hole £ 0fe » and in which a gripper <2I is placed The fiiemoat 20 further comprises a side pin 2M which AOsaa to seat the gripper 11) both on the right and the housing 18 lig. 6) or on the left side of this mount - position - there are lines drawn with dashed constants. In this way, 2 * (fig. 7) fixing the ritchaontgi zospolu - magnet effect on the rod 24, at the same time providing the tone of the rod with a pin, which allows on its fluctuations * In the contactor, the operating electromagnet can be freely positioned on either side of the contactor, and, especially in the case of mounting a large number of contactors on one board, it offers many advantages. other elements of the contactor, especially the arms of the main moving contacts. It is provided at its other end with a spigot 20d. This pin may be mounted on an insulating element (not shown in the drawing) attached to the rod H, and on it are mounted the arms of the TUttoomycn contacts. In the immediate vicinity of the yoke, on the rod H, the support 25 of the elastic contact M is seated. which co-operates with the contact 16 by means of a flexible conductor 27. This contact is connected to an adjacent clamp W8, whose isofinjata 29 is fixed on a metal plate L In this way, in any way, depending on whether the electromagnet is mounted on the right or on the left side. of the contactor, one side of the metal plate 2 aa ^ patrttje-tHc into the bracket 29, and the dftga into the catheter, on which the flight 30a with the cope W is mounted. In the absence of current wtlMiriaajanrg in the coil U, the voltage of the assembly including the armature 3f is kept in a state of oiltosetin and jammza by means of a guanuto 1, one end of which is hooked into the hole of the metal plug 1, and the other end is connected by a threaded pin J * the spindle 32 is mounted on the end of the holder 32 is a screw-on nut 33 (of the substantially known type) which contains, inside its threaded hole, a ring 34 made of a material with a high coefficient of friction (Fig. 8) and high abrasion resistance such as super polyamide. The proposed nuts are difficult to turn on the thread on which they are screwed in and turning them can only be achieved with a wrench - they do not loosen themselves. The position of the nut 33 on the threaded spindle 32 is factory set in the factory in such a way, so that the user does not need to change it. The nut is provided with a projection 33a which fits into an outwardly open hole 18d of the housing 18, which allows the passage of the threaded pin 32 through the widening notches 18c. To engage or disengage the spring 31, it is enough to grasp the end of the threaded pin. With the contactor open in the extreme position of the fixture 18, it is stopped by a stop 35, seated on the U-shaped frame 36. The hole 35a provided in this stop is used for possible control by means of this fixture, which is in the rest position (shown in 2 by dashed lines) of auxiliary contact block 37. Similarly, end 18a in the pull-down position may act on pushbutton 38a, possibly on another auxiliary contact block 38. Adding auxiliary contact block 37 entails the necessity to increase the tension springs 31. For this purpose, locking washers 39 are fitted between the nut and the spring on the threaded pin 32. one of them is provided with a recess 39a and protrusion 39b such that the recess 39a may accept a protrusion 33a of a nut or protrusion 39b of the washer, the protrusion 39b of the washer then replacing protrusion 33a of the nut to seat the return mechanism in the recess 18d of the support 18. Appropriate instruction plate it makes it possible to choose the number of washers 39 to be used in different cases. According to the invention, the coil is very well protected due to its resilient suspension against the impact of the yoke against the armature. Regardless of this, in cases where the coil 10-11 needs to be replaced, this operation can be carried out very quickly. For this, it is enough to unhook the housing return device 18 and unscrew only the screw 23, which holds the element 20 with the pin 20d on the rod 24. The screw 23, while remaining in the opening 20e, does not allow the gripper 21 to extend, preventing the risk of disengagement of the elements 17, 18, 19 and 20. When the pin 24 fitted to the rod 24 becomes detached, the rod 24 can be removed, whereby the resilient contact 26 and its the bracket 25 releases the coil. Then the coil can be removed from the yoke without the need for any tool and a new coil can be put in its place also without using any tool. The proposed design can be modified in the way of making individual elements in relation to to that described below, without however departing from the scope of the present invention. PL

Claims (5)

Claims 1. The operating electromagnet for the angular displacement contactor provided with a coil is held by spring elements on the yoke arm, characterized in that the coil body (10) fitted to one of the yoke arms (9) is held at a distance therefrom by means of at least one U-bent spring strip (8) and a central part fixed by its middle part to the support of this yoke, and the other two V-shaped arms touch the shoulder of the yoke, while The outer ends of the arms are in contact only with the inner wall of the coil body. 2. The electromagnet according to claim 1, comprising a coil provided with two similar clamps on one of the flanges of the coil body, characterized in that one of these clamps is intended to hold a secondary end cooperating with a flexible contact supported by the movable part of the contactor to energize the coil on excitation of an electromagnet by a current pulse. 3. A contactor provided with an electromagnet according to claim 1 and 2, characterized in that the movable assembly is mounted on the rod (24) provided at each end in a threaded hole, one of the pivots enabling the oscillation of the rod being one whole with the supplementary element (20) at the end this rod, which element simultaneously serves as an intermediate support for the armature (17) of the electromagnet. - 4 - 4. Contactor according to claim 3. The element of claim 3, characterized in that the complementary element (20) is a pressed insulating element, mounted in the C-shaped armature (18) of the armature (17) by means of a tubular gripper (21) placed in the corresponding opening of the element (20) and the fitting ( 18), which allows the passage of the screw (23) securing the assembly on the rod (24), which is screwed into its threaded hole. 5. Contactor according to claim 4. The gripper as claimed in claim 4, characterized in that the tubular gripper (21) is a spring band coiled in the form of a half cylinder, the ends of which are cut to form, on one side, rigid tabs (21a) resting on the holder (18), and on the other the sides of the spring tabs (2Ib) with hooks securing the pressed element (20) to the housing (18). Contactor according to claim The method of claim 3, characterized in that the electromagnet armature holder (18) is provided with a recess (18c, 18d) for seating the threaded pin (32) with a screwed high friction adjusting nut (33) which enters the cutout. . Contactor according to claim 6. A method according to claim 6, characterized in that the adjusting washers (39) are placed on the threaded pin (32) between the nut (33) and the spring in such a way that they can at any time be placed under the nut (33) so that they fit into it, while on the opposite side said shims enter the notch. La Telsmecaniaue Electriaue Deputy: mgr Józef Kaminski patent attorney 29- / LI l. , and xl £ p UrII1 I 1-yp to Patent No. 46491 S1. ^ U Z.G. "Ruch" W-wa, order 1225, circulation 100 copies PL