CH629030A5 - Intermittent mechanism for an electromechanical timing relay - Google Patents

Description

629 030 2

CLAIMS see time relays switching at different times

Jump mechanism for an electromechanical timing relay. Another disadvantage is that a synchronous motor, a leaf spring biased by the synchronous motor as a snap contact element as a spring-loaded transmission, and a relatively small number of switching cycles associated with the transmission output have their original coupled downward wheel with a switching cam. as well as losing elasticity.

A rocker arm designed as a rocker for actuating at least the object of the invention is the known of a switching element, wherein the spring arm is assigned a bias spring spring mechanism for an electromechanical timing relay, characterized in that between that to improve that at a constant switching speed

Jump lever (8) and the tensioning cam (17) on the drain wheel high return accuracy of the switching point achievable (1) a preload lever (9) is interposed that the preload is.

Tension lever (9) with the spring lever (8) via a compression spring According to the invention, this object is achieved by (10) being in engagement and opposite the spring lever (8) so that the tension spring (10) is pretensioned between the spring lever and the tensioning cam. is relatively movable that the drain wheel is a pretensioning lever interposed, that the spring lever (8) can be locked by a locking lever (3) and pretensioning lever with the spring lever via a compression spring in that the locking lever (3) by a release cam (19) is on the Intervention is available and can be actuated with respect to the spring lever for the preload discharge wheel (1), the release cam (19) of the compression spring being relatively movable such that the spring lever can be locked by the locking lever (3) to unlock the spring lever (8) by a locking lever and that the locking lever does. can be actuated by a release cam on the drain wheel, the release cam causing the release lever 20 to be released via the locking lever.

By the invention is advantageously achieved. The invention relates to a spring mechanism that a separate element for an electromechanical timing relay with a synchronous motor is used for the pretensioning of the spring lever, that for triggering the switching process, a gear driven by the synchronous motor is not used. On the other hand, the actuation and a coupling wheel 25 coupled to the gearbox output, by means of which the switching time is triggered, are completely freed from the production of a bias voltage by means of a switching cam and a rocker. In this th spring lever for actuating at least one switching element, each of the switching elements can carry out its task, with a spring being assigned to the spring lever. without making any further switching processes dependent on it

A jumping mechanism of the aforementioned kind is in the making.

DE-PS 2 160 301 described. Electromechanical time relays 30 The drawing shows an embodiment of the invention, generally have instantaneous switching elements, which are:

1 when the magnet system is excited, and FIG. 1 shows a side view of an embodiment of the invention.

hesitating switching elements that only function for an electromechanically selected time after a jump mechanism according to the invention has expired. The jump mechanical timing relay with a view in the direction of arrow I in FIG. 2 and mechanism of the aforementioned type is a delaying switching element. FIG. 2 is a plan view of the switching mechanism of the FIG. In the case of such switching elements, it is seen from 1 with a view in the direction of arrow II in FIG. 1.

Significance that the switching time of the snap contact element according to FIGS. 1 and 2 is clearly repeatable in the embodiment shown and that when the form of a snap mechanism for an electromechanical snap contact element is made contact, a creeping contact prevents the timing wheel from being changed by a synchronous motor. This means that the snap-action link gearbox-driven gear 40 is generally designated 1. This department performs the switching process. In addition to the sudden impeller 1 is mounted on an axis 2 of the transmission. It is also important to carry out the switching process that a locking lever 3 mounted on a pin 4 stands with a leaf spring 5 that the switching operation is carried out in relation to the time sequence that is held by a pin 6 under pre-tension exactly at the same switching time, and thereby pushes the locking lever 3 against a wall 7 of the housing 45 of the known snap mechanism described at the beginning.

For an electromechanical timing relay, a snap contact is used at right angles to the locking lever 3, a snap lever 8 on the link, which is designed as a spring element. Swivel-mounted by a pin 24 of the housing. The adjusting screw can be a spring bias a spring 8 is centered on its storage with a wide range. As a result, the spring element remains in an end bearing journal, on which a pretensioning lever 9 position. The 50 actuated by the switching cam is pivotally mounted. The biasing lever 9, like the spring lever, is designed as a rocker when it is shifted by the shift lever 8. At one end is in cam against the biased snap contact. The biasing lever 9 is arranged a compression spring 10, which

Jump contact member jumps at the moment in which the set lever force is overcome by having one end in a recess of the pretensioning lever 9 to overcome the set pretensioning force. The other end of the compression spring 10 has been against one, in the other end position and thereby leads the surface 55 of the spring 8. On the pivot of the circuit. With this arrangement of the spring mechanism, spring lever 8, the biasing lever 9 is prevented from creeping contact. The use of the spring lever 8 is relatively pivotable, its pivoting angle is limited by a prestressed switching contact formed as a spring by the stop surfaces 11, the compression spring 10 however having the disadvantage that the spring preload is tensioned in one direction and in the other direction so that the switching time is relaxed for various reasons. A second compression spring 12 is based on which can change. For example, the pin 24 on the side facing away from the compression spring 10 changes in relation to the ambient temperature with constant adjustment of the arrangement. This compression spring is supported with one end on a steep screw, the spring preload of the snap contact. With wall 13 on the housing and lies at its other end the change in spring preload changes against the spring lever 8. The spring 12 also presses the switching time, since now a lower 65 lever 8 against a stop 23 on the housing. This force by the spring lever is sufficient to bring the spring contact element into contact with the spring lever 8 at the stop 23 of the housing. This means that in the case of the lever 8 is referred to as the rest position. Relative to different outside temperatures, for example, the mechanical lever on the swivel axis 24 has the spring lever 8 on the