DE679079C - relay - Google Patents

Description

. Relay The invention relates to a bounce-free relay. Both. known .Relais arise difficulties when a large number of contact closings and breaks is required per second, since bruises can occur when the contact pieces meet, which lead to uncertainties in the contact. Relay arrangements have already become known in which the relay springs have been designed in the shape of a membrane, but bruises also occur with these arrangements at high switching speeds. Esl arrangements have also been made in which the contact surfaces are parallel - to the direction of movement of the movable contact part, but the movable contact part was guided in special guides made of insulating material in its entire longitudinal extent, so that additional friction arises, the high Schaltge # dhwind.tkeiteh excludes. In order to eliminate the above-mentioned disadvantages, the relay, the movable contact part of which is attached to a membrane-shaped flat spring, is constructed in such a way that the movable contact part, the contact surfaces of which are arranged parallel to its direction of movement, is guided only by the stationary contact pieces.

An example of an embodiment of the inventive concept is explained in the accompanying Figs. A pin a is connected to the plunger coil t (Fig. I) of an electrodynamic system with a permanent magnet in, which loops between two contact pieces b , which also serve to guide it. The contact pieces are carried by a leaf spring-like part which is rigidly attached on one side. To increase the spring effect, the leaf spring-like parts are pulled together by the helical spring 1; furthermore, the contact pieces are connected to terminals A and B.

The pin a consists of several parts according to Fig. 2. Either part e consists of non-conductive material, for example agate or ceramic material, and the other part g of conductive material, for example steel, or the pin a 'consists of two parts of conductive material which are separated at point f by an insulating layer . In order to achieve even wear of the pin when moving between the contact pieces, the parts of the pin are made of materials of the same hardness.

The resilient suspension of the plunger coil is achieved by a mernbranförrnige flat spring (spider of known type) r which is connected to terminal C.

If a current flows through the plunger coil and thereby z. B. drawn into the pot magnet, the upper slide is made of non-conductive material & part of the, pin between the contact pieces. The conductive connection between points A and B is interrupted. When the direction of the current in the plunger coil is reversed, the conductive part of the pin is pushed between the contact pieces, and a conductive connection between points A and B is re-established. The opening and closing of the connection A and B takes place with the frequency of the current flowing through the plunger coil and happens safely up to the very high frequencies, since the mechanical connection # between pin and contact pieces is not interrupted. Bruises, based on the existing stop for limiting the Anschlagstilte s occur upon impact of the pin have on Kon clocking no influence, since the] etztere not at the end of Bewegungsvorgangesj but occurs approximately in the middle of the switching path.

According to the invention, the one of the adjustable Alischlagstifte can through be passed through the pot magnet of the electrodynamic system.

If the contact pin consists of two parts of conductive material, which are separated by an insulating layer, and if it is moved back and forth between the contact pieces in the cycle of a current flowing through the plunger coil, a conductive connection between A and C is opened and closed at the same frequency . If the upper part of the barren pin is between the contact pieces, the connection is broken; if the lower part is guided between the contact pieces, a connection is made from A to C via contact piece b, pin a and flat spring r. In this case, too, the contact closes without bruises. l, 'alls is to reduce the wear of the pin made of steel or similar material of high hardness, it is according to Fig. 2 better, only a portion of the pin g of this manufacture, but the other part h to reduce the resistance z. B, made of copper or silver.

The electrodynamic system specified in the description can also by another, e.g. B. an electromagnetic, to be replaced.

Another use of the inventive concept, for example, according to FIG. 3 , is that a polarized relay is created by a contact pin consisting of two conductive parts isolated from one another and serving on both sides of the power supply. The pin Bew between the contacts #, gt, so the compound of the clocks is the movement - two sides each closed and / or opened. Furthermore, it is possible according to the invention to use the relay to open and / or close entire sets of contacts, which are created, for example, by multiple division of the contact pieces into conductive and non-conductive parts. The division can take place, for example, in the direction of movement of the contact parts and / or perpendicular to it.

Claims (2)

PATENT CLAIMS: i. Relay, the moving contact part of which is on a kidney-shaped flat spring is attached, characterized in that the movable Contact part, the contact surfaces of which are arranged parallel to its direction of movement are only passed through the fixed contact pieces. 2. Relay according to claim i, characterized in that zuir contact . a pin consisting of a conductive and a non-conductive part is used. 3. Relay according to Claimi and 2, characterized in that the pin is composed of parts of the same hardness. 4. Relay according to claim i to 3, characterized in that a conductive connection between two contact pieces is opened and / or closed by the contact pin. 5. Relay according to claim i to 4, characterized in that the contact pin itself is designed as a power supply. 6. Relay according to claim i to 5, characterized in that the pin is made from two conductive parts which are separated by an insulating layer. 7. Relay according to claim i to 6, characterized in that the contact pieces will be borne by leaf spring-like parts, which are connected to enhance the spring action by a tension spring. 8. Relay according to claim i to 7, characterized in that there is an electrodynamic system for moving the pin. G. Relay according to Claims 1 to 8, characterized in that stop pins are provided to limit the movement of the contact pin, one of which is guided through, for example, by the pot magnet of the electrodynamic system according to Claim 8.