SE442796B - DEVICE FOR ELECTROMAGNETIC RELAY - Google Patents

Description

79oss1s-s 2 The object of the present invention has been to provide a device for allowing attachment of contact springs to a relay insulating block, whereby the individual springs are easily attached to the insulating block and the springs are easily replaceable, and the insulating block is expandable to accommodate an increased number of contact springs.

For this purpose, the contact springs are, seen from the side, S-shaped so that each contact spring extends from its abutment portion at the said one wall of the groove to the opposite wall of the groove, in which a recess is also formed, in which the bent-out flap or tongue intervenes. With this S-shaped profiling, the advantage is also achieved that only small manufacturing tolerances must be taken into account. The distance between the upper and lower legs in this S in the direction of the width of the groove does not have to be observed exactly, since the contact spring abuts against the insulating body at two opposite points, i.e. at the two opposite walls of the track.

The above features and other features of the invention will now be described in more detail in connection with the accompanying drawings, in which: Figure 1 shows in longitudinal section a detail of a first embodiment of the attachment of a spring single groove; Figure 2 shows the spring in front view and on a smaller scale; Figure 3 shows a second embodiment of the fastening; Figure 4 schematically shows a third embodiment of the fastening; Figure 5 shows a more detailed one-section through an insulating block with four contact springs and a return spring; Figure 6 shows in section along the line VI-VI in Figure 7 a fastening according to a fourth embodiment; Figure 7 shows a section along the line VII-VII in Figure 6; Figure 8 shows a section along the line VIII-VIII in Figure 9 through a fastening according to a fifth embodiment of the invention; Figure 9 shows a section along the line IX-IX in Figure 8, and Figure 10 shows, partly in side view, partly in section along the line X-X in Figure 11, a further embodiment of the fastening according to the invention; figure 11 shows the device according to figure 10 in plan view.

Figure 1 shows a groove 3 in an insulating block, in which case an S-shaped height of the contact spring 1 abuts forcefully against the side walls 6 of the groove. The force-bonded abutment is provided by the bias of the spring.

In this embodiment, the spring 1 can be slid into the opening 4 of the groove in the direction of the arrow 11 from above. To secure or lock the spring in the intended position, a locking lug or cam 8 arranged on the side wall 6 serves, which engages in a corresponding recess or hole 7 in the spring 1. The spring can thus simply, using its own pretension, be pushed into the opening 3 of the groove 3 and in connection therewith with its recess or hole 7 be brought into engagement with the locking lug or lug 8. _ Figure 2 shows as an example, such a spring, which is made double-legged with two locking recesses and holes 7, respectively. This results in an even better position securing, since in this case two locking lugs 8 engage in corresponding recesses 7 and thereby secure the spring 1 against rotational movements in the plane of the spring. The spring 1 can furthermore have a longitudinal slot-shaped opening 18, through which the screw passes, which, for example in the embodiment according to Fig. 5, holds together the insulating plates 17 of the insulating block 13.

Figure 3 shows another embodiment of the fastening device. The position lock is designed in such a way that a bent-out flap or tongue 9 projects laterally from the S-shaped bent spring 2 and engages in a corresponding hole or recess 10 in the side wall 6 of the groove 3. Of course, several such tongues can also be provided, these can also be arranged in other preferably opposite directions on the contact spring 2.

Figure 4 shows that the force-bound reading of the spring 1, 2 in the groove 3 can also be achieved in that the spring is formed with a plurality of wave formations, which are force-applied to the side wall 6 of the groove 3, so that the spring is locked in the groove. For securing or locking the spring in the intended position, it is also possible to use bent-out flaps or tongues 9 or corresponding recesses or holes and engaging lugs 8 therein.

Figure 5 shows as a further exemplary embodiment the fastening of four contact springs 1 and a contact spring 2 in an insulating block 13. In the exemplary embodiment shown here, the insulating block 13 can consist of a unitary part, in which the spring grooves 3 are arranged.

The contact springs 1 can in this case be jointly fastened in a common tool and jointly inserted and locked in the grooves 3. where they are thereby brought into force-bound engagement with the position securing details. With this fastening method, the essential advantage is gained that the contact springs can easily be replaced with any other contact springs.

The so-called insulating block 13 is also provided between insulating plates, which are stacked on top of each other at a mutual distance, whereby the springs can now also be slid jointly into their grooves in the insulating block thus formed by means of the same cohesive mounting tool.

The insulating block is thus built modularly, in that the insulating plates 17 can be stacked at a mutual distance in any desired number, so that any desired number of grooves 3 is obtained, in which a corresponding, arbitrarily desired number of contact springs 1 can be arranged. To ensure the cohesion of the insulating plates 17, these have at least one through hole 15, which is passed through a threaded pin or screw (not shown), which cooperates with a thread arranged in the yoke of the relay. In the exemplary embodiment shown here, this screw would be inserted from the end 19 of the through hole 15, while at the other end 20 of the hole 15 there would be, for example, the yoke for a relay coil, said screw engaging the thread at this yoke. For position securing of the insulating block 13 at the yoke, studs, e.g. the cam 14 on the insulating block 13, arranged, which engage in a suitably placed recess in the yoke.

In this way, it is thus possible to assemble any number of contact spring sets in a construction box-like manner. In this case it is an advantage that the operating member which passes through all the insulating plates 17, and with suitably placed lugs or lugs abutting against the contact springs 1, is influenced by a common contact spring 2, which exerts a force on the operating member in the direction of the arrow 21. If the insulating block 13 is now extended by adding additional insulating plates 17, the operating member, which can be designed as a simple operating rod, can be replaced by a longer rod, but still the same contact spring 2 is useful, since it can be snapped back into the groove and thereby fixed in this. Of course, it is also possible to replace the contact spring 2 with other contact springs with a higher or lower spring constant.

The described fastening of the contact springs 1 and the contact spring 2 gives a modular construction of the insulating block, which can be varied in any desired manner. The variation can take place either by applying contact springs 1 of another function or construction or spring constant in the grooves, or by replacing contact springs 2. In addition, the insulating block can be changed or extended or shortened in any desired manner, so that in a simple manner way - without additional aids or special work operations - can increase or decrease the number of contact spring sets.

Claims (3)

Figure 6 shows a fastening similar to that of Figure 1. However, it comprises a cam or lug 22, which has a round cross-sectional profile according to Figure 7 and in the longitudinal direction 11 of the groove is wedge-shaped with a profile rising in this direction (insertion direction). This enables a particularly simple mounting, since the front end of the contact spring 1 in the direction of the arrow 11 during the insertion will rest on the obliquely upwardly inclined surface of the cam 22 and can be easily pressed over this cam. The recess 7 then snaps over the cam 22, so that an extremely secure and easily mounted attachment of the contact spring 1 is obtained in the grooves 3 of the insulating block 13. Figures 8 and 9 show that the cam or lug 22 can also have a square or instead of the round cross-sectional profile. rectangular profile. An essential feature in this exemplary embodiment is that the cam 23 is applied directly to the side of the groove 3, and thus is not located in the middle of the groove 3, as is the case, for example, according to Figure 7. Furthermore, it is essential that the recess 24 is located at contact edge 1 edge. In this way, the recess 23 can be achieved in a particularly simple and cost-saving manner. Figures 10 and 11 show the fastening of a contact spring 2 in the groove 3 of the insulating block 13. In this case a recess 9 is used with slightly widening or diverging, cross-sectional side walls in which the flap or tongue 25 engages, which by punching a recess according to figure 11 is obtained from the goods of the contact spring 2. The tongue 25 is resiliently attached to the contact spring 2 and resiliently engages in the recesses 9 of the insulating block 13. Due to the slightly widening side walls of the recess 9, a particularly firm and secure locking or locking of the tongue 25 in the recesses 9 of the insulating block 13 is obtained. Patent claims 1. Device in the case of an electromagnetic relay with a contact spring set arranged in parallel grooves in a body of insulating material, consisting of a plurality of parallel and similar contact springs, which with their one long side abut against one wall of the groove and which have a bent tab or tongue directed towards the second wall of the groove, characterized in that the contact springs (1, 2), seen from the side, are S-shaped bent so that each contact spring extends from its abutment portion at the said (3) of the groove (3). 7903315-5 one wall to the opposite wall of the groove, wherein in addition a recess (9) is formed, in which the bent-out flap or tongue (10) engages. Device according to claim 1, characterized in that on the contact spring (2) a flap or tongue (25) directed with its free end towards the insertion direction is arranged, which engages in the recess (9) in the wall of the groove (3). Device according to Claim 2, characterized in that the side walls (9) of the recess (9) are widened in a cross-section from the bottom upwards.