DE3644546C1 - Switching device for delayed contact making - Google Patents

Abstract

The invention relates to a switching device for delayed contact making, consisting of at least one but preferably two stationary contacts (22, 22') and one moving contact element (20), the moving contact element interacting with a delay device. After an operating lever (3) has been operated, the effect of a plunger (2) on the moving contact (20) is delayed by a specific time. This delay results from the fact that the plunger (2) is coupled to a mass (4) in such a manner that said mass is set in motion, against its inertia, by the motion of the plunger (2). The mass (4) is preferably designed as a rotating body which is set into rotational motion by a coupling pin (5) which is arranged on the plunger (2) and acts outside the rotation axis of the mass (4). A tension spring (11) which acts in the sense of contact closing acts on the operating lever (3), while a compression spring (10) which acts in the sense of contact opening acts on the plunger (2). If the operating lever (3) is moved against the force of the tension spring (11), the compression spring (10) attempts to open the contact. However, to do this, it must set the mass (4) in rotational motion. If, in contrast, the force F1 is removed, the tension spring (11) tries to move the operating lever (3) into the original position, likewise against the inertia of the mass (4). <IMAGE>

Description

The invention relates to a switching device for delayed contact according to the generic term of claim 1.

Such switching devices are often used turns to after a short operation Time to open or close a contact. Today mechanical or electronic devices are used for this cal timers with high technical effort.

In these switching devices, however, is a ver hesitated circuit in both the "power on" - as not in the "switch-off" direction either, or only after a special measure.

The invention is based on the object, if possible little effort to create a switching device, both in the "On" and in the "Off switch "direction the circuit opposite the actuation delayed.

This task is characterized by the characteristic male of claim 1 solved. Here, the carrier a mass that corresponds to the movement of the ram counteracts used as a delay element.

Serve as an energy store for the movement of the ram here a tension spring for the "switch-on" direction and for the "switch-off" direction the plunger influencing compression spring.  

A rotating mass can advantageously be used as the mass use that is coupled to the plunger in such a way that it attacks outside the axis of rotation of the mass and it through the translational movement of the ram is set into a rotational movement.

Another advantageous embodiment of the invention result from the subclaims.

Using the drawing in which an embodiment of the invention, the invention is intended are explained and described in more detail. It shows

Fig. 1 shows a section through the Verzögerungseinrich tung in the direction AA of Fig. 2,

Fig. 2 is a plan view in partial cross section,

Fig. 3 shows the assignment between the plunger and the rotating mass.

In Fig. 1, the switching device with closed contacts 20 and 22 or 22 'is shown. The plunger 2 is in its lower end position. For this purpose, it is necessary that the tension spring 11 acting on the actuating lever 3 , taking into account the longer lever arm, is able to hold the plunger 2 against the compression spring 10 and thus the contacts in the closed position.

If the operating lever 2 is lifted by an actuating force F from the plunger, the compression spring 10 tries to move the plunger 2 into the upper end position. Contrary to this movement, however, acts the inertia of the mass 4 , since the plunger 2 via the hitch pin 5, the mass 4 , which can be designed as a rotating body, must set in rotation.

The coupling pin 5 , which acts outside the axis of rotation of the mass 4 , projects into an elongated recess in the mass 4 . The ratio of the spring force of the compression spring 10 to the inertia of the mass 4 is adjusted so that the contacts open with the desired time delay. If the actuating force F is withdrawn, the state tries to adjust itself again, as shown. The tension spring 11 acts on the actuating lever 3 , which moves the plunger 2 into the lower end position. However, this movement is again opposed to the inertia of the mass 4 . The plunger 2 must first set the mass 4 in rotation with its translatory movement in the lower end position due to its connection via the coupling pin 5 and the elongated recess 8 before the movable contact element 20 touches the fixed contacts 22 and 22 ' . From the tuning of the compression spring 10 and the tension spring 11 , the delay time can be designed the same or different depending on the need in the on and off direction. The plunger 2 , which is supported by the compression spring 10 , is guided in a housing 1 . With the boom arms 9 and 9 ' , the boom of the plunger 2 engages the movable contact 20 , which is connected in a known manner with the contact pressure spring 12 that the movement of the contact 20 takes place with a jump effect. The fork-shaped opening between the cantilever arms 9 and 9 ' is further out than the diameter of the contact spring.

As a result, the plunger 2 must first run through a certain path before the contact 20 is brought into the closed position by means of the contact pressure spring 12 . The movable contact 20 cooperates with the fixed contact 22 , which is also arranged in the housing 1 . The actuating lever 3 acts on the plunger 2 via a pressed-out cam 14 , which is pivotably mounted on the one hand on a pivot bearing 13 of the housing 1 and, on the other hand, is pulled against the plunger 2 by the tension spring 11 also fastened to the housing 1 . The coupling pin 5 is arranged on the tappet 2 , the axis of rotation of which is identified by the center line 6 . The position of the axis of rotation of the mass 4 , not shown in this view, is indicated by the center line 7 .

In Fig. 2 the switching device is shown in a plan view. It can be seen in this illustration the arrangement of the mass 4 designed as a rotating body and rotatably supported in the housing 1 and the coupling pin 5 with a certain distance from the axis of rotation 7 and its axis of rotation 6 , which is arranged on the plunger 2 . In this illustration, the actuating lever 3 is cut off in the region of the pivot bearing 13 for the sake of clarity. This also makes the arrangement of the contact pressure spring 12 and the movable contact element 20 visible.

Fig. 3 shows the interaction of the rotating mass 4 with the coupling pin 5 of the plunger. 2 Due to the off-center arrangement of the axis of rotation 6 of the coupling pin 5 , a torque occurs due to the translational movement of the plunger 2 , which attempts to set the mass 4 in rotation. The inertia of the mass 4 counteracts this torque and delays the movement of the plunger 2 .

Claims (8)

1. Switching device for delayed contact, consisting of at least one, but preferably two fixed contacts and at least one movable contact element, the movable contact element cooperating with a delay device such that after an actuation of the switching device, the effect on the movable contact is delayed, thereby characterized in that an actuating lever ( 3 ) acts on a plunger ( 2 ) supported by a spring ( 10 ), which is connected on the one hand to the movable contact element ( 20 ) and on the other hand is coupled to a mass ( 4 ) in such a way that by the movement of the plunger ( 2 ), the mass ( 4 ) is set in motion against its inertial force. 2. Switching device for delayed contact according to claim 1, characterized in that the with the plunger ( 2 ) co-acting mass ( 4 ) is designed as a rotating body of a arranged on the plunger ( 2 ) coupling pin ( 5 ) outside of the Axis of rotation of the mass ( 4 ) attacks, is set into a rotational movement. 3. Switching device for delayed contact according to claims 1 or 2, characterized in that on the actuating lever ( 3 ) engages a tension spring ( 11 ) which acts in the sense of the contact closure, and that on the plunger ( 2 ) a compression spring ( 10 ) attacks that acts in the sense of the contact opening. 4. Switching device for delayed contact according to claims 1 to 3, characterized in that the plunger ( 2 ) acts on a contact pressure spring ( 12 ) which actuates the contact ( 20 ) designed as a snap contact. 5. Switching device for delayed contact according to one of claims 1 to 4, characterized in that the plunger ( 2 ) has a fork-shaped boom, the opening between the cantilever arms ( 9, 9 ' ) is significantly larger than the diameter of the encompassed contact pressure spring ( 12 ). 6. Switching device for delayed contact according to one of claims 1 to 5, characterized in that the tension spring ( 11 ) has a higher spring force than the Druckfe the ( 10 ), and that after attacking an actuating force in the direction F 1, the compression spring ( 10 ) causes the contact opening against the inertia of the mass ( 4 ), and that after removing the actuation force, the tension spring ( 11 ) against the inertia of the mass ( 4 ) and the force of the compression spring ( 10 ) causes the contact closure. 7. Switching device for delayed contact according to one of claims 1 to 6, characterized in that the delays in the contact opening and in the contact closure are variable by the ratio of the spring forces of the compression spring ( 10 ) and the tension spring ( 11 ). 8. Switching device for delayed contact according to one of claims 1 to 7, characterized in that the delay time can be varied by different masses ( 4 ).