SE448411B - CONTACT SPRING BLOCK FOR RELEASE - Google Patents

Description

i _ i i q 2. 448 41 1 i _ _ _ and causes an unintentional short circuit between the one, still intact spring and the contact fan of the interrupted spring. The known contact block is thus not secured against that in case of crime on a contact-giving part, this falls down and causes one unwanted short circuit in the contact spring set.

Accordingly, the object of the present invention is to eliminate this problem with known contact blocks and_to ensure that short circuit does not occur when a contact spring is broken. 7 According to the invention, this is permitted by each contact feather in ke fi tektseteen is. ekimjfrån the changeientektfjäaern in the contact set by a contact sensor only of the contact springs the part exposing the partition. f 7 This ensures that each contact spring pushes down in a separate chamber, so that in the event of a breach of a contact part of the contact spring, this is prevented from falling into the chamber to adjacent contact spring and here cause a short circuit.

Additional features and advantages of the present invention invention will become more apparent from the following description. an exemplary embodiment in connection with accompanying drawings, in which: "7 Figure 1 in side view shows an insulating block with mounted springs and actuators for a relay according to the invention; and Figure 2 shows a section along the line II-II in Figure 1; In Figure 1 and zvieee a ieelerbleek 1, in which a kenf beat spring set 25_ (break contact) and a contact spring set 27 (closing contacts) are arranged in a row so that the relay is shows a total of two parallel contact spring sets 25, 27 (each consisting of a break and a closing contact). The one row arranged.the spring set 21 consisting of the contact spring sets - 25, 27, contains both passive contact springs 4 and active ones contact springs 5 .: 7 'Z In a comparison between Figure 1 and Figure 2, one finds the essential features of the present invention. Each contact spring 4, 5 is arranged in a separate, simple chamber 9, wherein, for example, in figure 1 the right passive contact spring 4 is arranged in a single chamber 9, which is delimited partly by angular side walls 7 (7a, 7b) standing right against the drawing plane, partly off a part of the middle partition wall 6 and of a not closer illustrated protective cover or hood, which can be worn from above on the entire insulating block 1; The left, parallel to the right active contact spring arranged in the insulating block 1 3, - i "i i 448 411 dern 5 is likewise arranged in a separate, simple chamber 9, which likewise limited by partly side walls 7 (7a, 7c), partly a part of the middle partition wall 6 and of a part of it not closer illustrated protective cover. Each contact spring 4, 5 in contact the kit is thus different from the second contact spring in the contact the kit through the partition wall 7a, which exposes only the contact spring the contacting part of the The contact spring set shown in the left part of figure 1 (Breaking contact), which consists of the passive contact spring 4 and the active contact spring 5, is also located in a separate chamber 9, formed by the two described above, by a partition wall 7a which only exposes the contact springs of the contact springs the separate spring chambers 9, the contact spring sets 25, 27 are also completely separated by the partition wall 7c, In particular by Figure 2 shows that in the event of a no closer inspection, protective cover is formed sebarate chambers 9, in which they are active and the passive contact springs 4, 5 are arranged completely divorced. 2 2 g It has already been stated above that in Figure 2 to the right of the middle partition wall 6 located contact spring- sentences 25, 27 in terms of space are separated from those on the left about this partition located contact spring set. You also have Avoid any breakthrough of the middle partition 6, thereby achieving the essential advantage that disturbances, originating from the contactors located to the right of the partition 6 the spring sets 25, 27, cannot be transferred to those to the left of partition wall 6 located contact spring sets.

To enable a joint operation of these to to the right and to the left of the middle partition contact spring sets, the common actuator 3 must have it shown in Figure 2. The actuator 3 then passes along ring game 8 through the side walls 7b of the insulating block 1 without it the middle partition wall 6 is then passed through. The common maneuvering ring of those arranged to the right and left of the partition wall 6 the contact spring sets, 25, 27 are made by spring set 25, 27 is coordinated with a control rod 13 (see figure 2), provided with at least partially against the contact springs 4, 5 adjacent, expanding claws or lugs 11, 12 located substantially in line with the partitions 7a, 7c and that the operating vein l3 passes through one or the other of the insulating block. second side wall 7b and is arranged parallel to the partition wall 11 f 4., 448 411 p i p i is essential is that they to the individual contact spring sets associated control rods 13 at a relay with parallel operating contact spring sets fi such as that in the present embodiment shape showed the relay, in the vicinity of one outer side of the insulating block 1 wall 7b are connected to each other by a common operating bridge 10, against which the relay anchor can be brought into abutment. I-pre- lying embodiment, the operating member 3 is thus designed as a two-legged fork, the fork legs being formed by operating the rods 13 and the intermediate part of the fork of the control bridge 10. In this case achieved, as stated above, the essential advantage, that a common operation of the parallel maneuverable contacts the spring sets are made by bringing the anchor to the arrow 23 direction affect the control bridge 10.

In this case it is important that the lugs 11, 12 are so arranged, i.e. with little play for the active contact springs 5, that they the active contact springs É are carried in the direction of the arrow 23, and in the opposite direction when actuating the control bridge 10, and the contact springs 4 are kept stationary. If a disturbance occurs of any kind, for example by so-called "sticking" between the the active and passive contact springs 4, 5 on the right in figure 1, the actuator 3 remains in its thereby occupied position, so that a connection of the other contacts in the event of such a disturbance avoided. _ i_ l í_ I In this case, it is also essential that the control rods 13 carried by a common return spring. This is achieved in by the fact that the control rods 13 with their front part pass through an outer side wall 7b of the insulating block 1, and that against operation the front part of the rods 13 abuts an overlying gripping return spring 17, which is attached to the insulating block 1. This is achieved an exactly equal effect on all control rods l3, whereby a particularly simple and reliable relay construction is obtained.

In the representation according to Figure 1 and Figure 2, it is found that the insulating block with the contact spring sets 25, 27 encapsulated therein forms a versatile closed unit; wherein the contact spring sets 25, 27 on one side are mutually separated through partitions 6, 7.

This entails the essential advantage that the insulating block 1 forms a separate unit and can be arranged completely separate from relay drive system. It is only important that a drive system is so arranged that an anchor (not shown) can be brought into contact against the control bridge 10 and exert a force in the direction of the arrow 23 to displace the actuator 3. fep

Claims (6)

5. The insulating block can then be fastened to a non-reachable yoke, in that the insulating block 1 is provided with a through hole 21, through which a screw (not shown) passes and can be screwed into a thread arranged in the yoke. For locking the insulating block 1 at the yoke, there are locking lugs or lugs 22, which engage in the corresponding holes in the yoke. By loosening said screw, the insulating block 1 can be removed from the yoke and another insulating block attached to it. This has the advantage that the spring set and the insulating block together form a complete and thus separately adjustable unit. This ensures the safety function (forced steering) for the spring kit even in the event of an incorrectly set drive system (eg clamping of the anchor). By arranging a single insulating block with special pockets for accommodating the different spring sets, "low manufacturing costs are obtained, since the insulating block can be manufactured in a single piece, eg as a syringe or press piece. By using a fork-shaped actuator 3 maximum is achieved crawl distance or minimum air gap between the contact spring sets, since a spatial separation takes place through the separated chambers or pockets (walls 6, 7) .Of course, it is possible to have more than two operating rods 13 parallel to each other for a plurality of parallel maneuverable The control means can thus be made of three-, four- or multi-legged f. Patent claim: u fl uu fl uuuuuu Contact spring blocks for relays with contact springs arranged in parallel rows in the form of contact sets (eg opening contacts, closing contacts, double closing contacts, etc.), which, in the direction of movement of an actuator, are placed one after the other and separated from each other by a partition wall to the contact spring block, and in which the outwardly acting ends of the contact spring assembly and the entire contact spring assembly towards the drive system are covered by additional walls of the contact spring block, whereby after application of the contact device the cover required for the actuator breakthroughs, closed contact chambers for the contact springs are obtained for a contact set, it is known that each contact spring (4, 5) in the contact set is separate from the other contact spring (5, 4) in the contact set by a contact only of the contact springs. 448 411 giving part exposing partition (la). '' - Contact spring block according to Claim 1, characterized in that the contacting part separating the chamber wall extending separatingly and perpendicularly to the partition wall (7a) is formed by an enlarged lug or cam (11) on the actuator (3), which extends into the vicinity. of the inside of the cover. Contact spring block according to Claim 2, characterized in that the actuator (3) has, in a manner known per se, two spacers (13) arranged at a distance from and parallel to each other and the middle spring wall (13) of the contact spring block between them, on which the lugs (11) acting on the contact spring (5) are fixed perpendicular to the direction of operation (23), and that in the direction of operation several lugs (l1) are arranged at a distance from and parallel to. each other for simultaneous operation of several contact spring sets arranged in line. 7, - Contact spring block according to one of Claims 1 to 3, characterized in that the end wall (7b) of the contact spring block (1) arranged parallel to the longitudinal axis of the contact springs (4, 5) and perpendicular to the operating direction (23) is passed through the free ends of the control rods (13) of the actuator (3). '5. Contact spring block according to one of Claims 1 to 4, characterized in that the active contact springs (5) are accommodated with little play in slots between adjacent lugs (11, 12) on the actuator (3) and that the lugs (11, 12) is substantially in line with the individual contact springs (4, 5) separating the partitions (7a, -7c). lg Z Contact spring block according to one of the preceding claims, characterized in that it constitutes a unit separate from the drive system of the relay, which is releasably attached to the relay. oh! ~