DE1244295B - Protective tube contact latching relay - Google Patents

Description

Protective tube contact stick-on relay The well-known protective tube contact stick-on relay have in addition to an excitation winding for generating one the magnetically controllable Contacts actuating magnetic field a permanent magnet, the flux of which is not sufficient, to switch the contacts, but probably to the actuated contacts after termination the energization of the winding to keep it in its actuated position. With this arrangement however, the use of permanent magnets creates additional work.

It is also known that a protective tube contact relay (German Utility model 1748 669) to provide additional flux guides that act as permanent magnets are designed to thereby make the relay self-holding. This well-known The arrangement is simplified by the subject of the application; they are not river guides necessary.

In another known embodiment of a protective tube contact relay (French patent specification 1270 860) are the contact spring tongues as permanent magnets educated. However, material with permanent magnetic properties can be used in Do not melt the glass. Therefore the contact spring tongues are each on pins fastened from other material, which are fused into the glass tube. This manufacturing is cumbersome and time-consuming and, depending on the type of relay, contact spring tongues are required required from different materials, which multiplies the storage and manufacture is made difficult.

It is also already a choke coil (German patent 330 855) whose winding material is magnetizable so that it does not have an iron core needed. However, the wrapping material does not consist of one in this arrangement Material with remanence properties, and this coil is used to form an inductance used, not to excite a latching relay, whose adhesive property is due to the coil is exercised itself.

The aim of the invention is to reduce the complexity of such latching relays with protected to reduce magnetically controllable contacts. The invention achieves this by that the excitation winding of the relay made of magnetizable material of such remanence consists that after switching off the excitation current to generate a magnetic field, through which the contacts are made to respond, a magnetic field remains, which keeps the contacts in their actuated state. To transfer the contacts in the relay according to the invention, the winding must be in the non-actuated state made of magnetizable material are briefly excited in the opposite sense. The magnetic field that remains afterwards due to the remanence of the winding is not sufficient from transferring the contacts from the inactivated state. The Winding made from a magnetic material with two different states of remanence manufactured. To avoid a large number of air gaps between individual adjacent ones The excitation winding is made of a magnetizable windings with particular advantage Tape made in the width of the changing room. The magnetic material used must be electrically conductive and is expedient on one side with an insulating layer provided so that several turns can be wound.

An embodiment of the invention is shown in the drawings. It shows F i g. 1 a protective tube contact with magnetically controllable contact parts, F i g. 2 a roll of magnetizable tape, Fig. 3 a latching relay with a Protective tube contact in a perspective view, FIG. 4 a section through the latching relay according to F i g. 3, fig. 5 shows a circuit arrangement for controlling the Latching relay according to Fig. 3.

Magnetically controllable contacts are usually formed from two contact parts 11 and 12 made of magnetizable material, which are melted in a protective tube 13 made of glass. The excitation winding can be applied directly to the protective tube 13.

The in F i g. The excitation winding shown in FIG. 2 consists of a strip of tape 14, the width of which corresponds to the length of the protective tube 13. At one end, which is wound as the innermost layer onto the protective tube 13, the tape strip has an extension 15 which is elongated in width and to which an electrical lead can be connected. The other end of the tape strip 14 carries a projection 16 which is directed in the direction of the longitudinal extension and to which the second supply line can be connected.

To operate the magnetically controllable contact, a powerful one must be used Current can be sent through the tape winding 14. A contact A is capable of both poles a corresponding current source Q 1 directly to the terminals 15 and 16 of the To connect ribbon wraps. The electric current must be so strong that not only the magnetic field strength is applied, which is necessary to operate the magnetically controllable Contact is required, but a magnetic field must be built up, which the magnetizable material of the tape roll 14 is so influenced that after switching off of the excitation current a strong remanent field remains, which the actuated magnetically controllable contact holds in the actuated position. To operate a Such a protective tube contact is, for example, an excitation of 60 AW and for Hold an excitation of 20 AW required. That of the tape wrap once excited 14 generated remanent field should expediently have a strength of about 300 Gauss.

To return the actuated protective tube contact to the non-actuated state, an excitation of the tape roll 14 in the opposite sense is briefly required, through which the existing magnetic field is reduced. One contact B is capable of one oppositely polarized current source Q 2 via a resistor W to the connections 15 and 16 of the magnetic coil 14 to connect.

Since with the small number of turns of the tape roll 14, a current is considerable Strength to be applied from the power sources Q 1 and Q 2 are called power sources expediently used capacitors, which are gradually charged and suddenly can be discharged. With particular advantage, the magnet coil 14 can consist of one Material can be formed with two different states of remanence. Then it is possible, through excitation by the current source Q 1, the high remanence state set that keeps the magnetically controllable contact in the actuated position, while by means of an excitation from the oppositely polarized current source Q 2 the low remanence state is set which does not actuate the contact able.

Instead of a single protective tube contact, on its glass tube 13 of the magnet coil 14 is applied, several protected contacts can also be used arranged next to one another and jointly enclosed by the magnetic winding 14 will. All contacts are then generated simultaneously by the one generated by the winding Magnetic field activated.

Claims (2)

Claims: 1. Protective tube contact latching relay with magnetically controllable Contacts, in that the excitation winding (14) consists of magnetizable material such remanence that after switching off the Excitation current to generate a magnetic field through which the contacts (11, 12) are made to respond, a magnetic field remains, which the contacts holds in their actuated state. 2. latching relay according to claim 1, characterized in that that the winding consists of a tape-shaped, electrically conductive and magnetizable Material of high remanence is formed, the width of which is the width of the winding space is equivalent to. Documents considered: German Patent No. 330 855; German utility model No. 1748 669; French patent specification No. 1270 860.