DE1089843B - Small diameter mercury switch tube - Google Patents

Description

The invention relates to a mercury interrupter with a small diameter and a self in it longitudinally shifting mercury column with a strongly curved surface, furthermore with one or more switching metal contacts arranged in the path of movement of the mercury.

The known mercury interrupter tubes of this type have only a relatively low load capacity. The simple working metal wire contacts, which are in the narrow tube (about 8 mm inside diameter, where the installation of a mercury contact is no longer at all or only if a lower load capacity is accepted, is possible) can only be used, namely 'at slower Shifting the mercury column does not realize a momentary switching process. It is common that sensitive feed-through point due to an angular design of the contact wire from the area of the arc and also the harmful heating effects of the arc equipping the contact wire at its lower end with a thicker arc-resistant sleeve However, this does not significantly improve the switch-on process. the slow approach of the rising mercury surface to the simply working contact namely above a certain load an arc emerges, which stop and lead to destruction the interrupter can lead. As a result, the load must be kept below this limit, so that in most cases the use of an intermediate relay for amplification is inevitable.

The object of the invention is to provide a simple mercury interrupter to create with small dimensions and with increased shock resistance, with their help, significantly higher outputs immediately, i.e. without amplifier relays, in the instantaneous switching process can be switched.

An essential feature of the invention is that at least one switching contact has at least two electrically and mechanically rigidly connected metal contact surfaces which protrude into the interior of the tube so that there is essentially the same distance between them and the mercury surface in their position shortly before contact is made . A breakdown from the mercury column to the one metal contact surface of the double contact, which initiates the switching process, would form an arc above the arc limit if the second metal contact surface was absent. Due to the inventive design of the double contact for narrow tubes, however, in the event of a breakdown to a point of the double contact, a mercury interrupter tube with respect to the tube axis becomes
with a small diameter

Applicant:

Dipl.-Ing. Louis Marton,
New York, NY (V. St. A.)

Representative: Dipl.-Ing. H. Leinweber, patent attorney,
Munich 2, Rosental 7

Dipl.-Ing. Louis Marton, New York, NY (V. St. A.),
has been named as the inventor

symmetrical evaporation of mercury is generated, causing the mercury surface to immediately face the opposite Contact surface of the double contact is thrown, as a result of the other Contact point bridging the burning arc and immediately extinguishing it. (This appearance is referred to below as the "double contact effect" for short.)

The metal contact has a sufficiently large, flat metal surface on which the mercury drops when it sinks can still adhere as a result of the action of the current; only when the mercury column is deep has fallen back enough, there is a sudden break in contact. Then it causes the suddenly evaporating last mercury bridge a sudden increase in pressure, along with the arising If the load limit is significantly higher than usual, there is an arc-free switch-off secures.

According to a further essential feature of the invention, the multiple switching contact has several effective contact points or an infinite number, d. i.e., it is a metal ring contact that is in the tight The tube is arranged concentrically with the tube axis and its plane is perpendicular to the tube axis. All types of such contacts (double, multiple and ring contact) can be made of wire or sheet metal manufacture easily and cheaply by pressing or bending.

According to a further essential feature, the interrupter consists of at least two of each other insulated, approximately cylindrical tubular elements made of conductive material, at least one of which with a concentric tube attachment designed as a double, multiple or ring contact is provided.

009 609/313

In this way, the interrupter can be adjusted as required to switch contacts from a large number of each according to the advantageous double contact principle assemble working switching contacts in the form of tubular elements.

Further essential features emerge from the description. There are several in the drawing Embodiments of the invention shown for example, namely show '

1, 2 and 6 are axial longitudinal sections through interrupter tubes made of an insulating material and ■ -

Fig. 3 to 5 and 7 axial longitudinal sections through interrupter tubes, which are made of conductive, insulated from each other Pipe elements exist.

In the narrow interrupter 11 shown in Fig. 1 made of non-conductive material, for. B. made of glass, moves the mercury column 12 along the tube axis. The surface of the mercury forms accordingly the narrowness of the tube under the influence of surface tension is about a hemisphere 15. At least two opposite inner sides of the tube 11 are at the same height and with respect to the surface 15 of the mercury arranged symmetrically, electrically and mechanically rigidly connected to one another Metal contact surfaces 13, 14 installed, the truncated edges of which are directed against the mercury are. The contact surfaces IS, 14 form a double contact, which is connected to the power source 10 via the bushing 18. The one with the Mercury column 12 connected passage 18.1 forms the second contact of the immersion contact Switch tube.

The mode of operation of this interrupter is as follows: As soon as the mercury column 12 at a slow slope when it comes near the contact 13, 14, a voltage arises as a function of the applied voltage Breakdown to one of the two metal contact surfaces 13, 14, for example to 14, and thus a smaller one Switching spark. If only the contact point 14 were present, an arc would develop and stand still; however, when the double contact is used, mercury vapor formation occurs for a short time at 14, under whose pressure the mercury surface deviates from the original contour line 15 into another, similar to the contour line 16, shifts. The mercury comes with the Contact surface 13 in contact, the switching spark generated at 14 is short-circuited and goes out immediately. The current now flows entirely through the contact point 13, from which this is due to the effect of the current adherent mercury because of the too low surface tension, which tends to restore the original to restore hemispherical surface, cannot detach. In this way there is a shift Achieved, even with a multiple value of the usual load with normal simple metal contacts only causes a small switching spark.

As soon as the mercury column begins to sink, even if this movement advances slowly, it takes place Power interruption again in a momentary switching process. The mercury dissolves unhindered from one of the two sides of the double contact 13, 14, so that all the current from the other is taken over. Due to the effect of the current, the mercury adheres so strongly to the tamped metal surface the latter contact area that a few millimeters of lowering of the mercury column is necessary is to the mercury bridge that has now formed, which goes from the mercury column to the contact element to narrow down so far that it suddenly, accompanied by a momentary light-up, tears (see Fig. 1, contour line 17). At that moment -the particles of the narrow bridge become explosively evaporated, so that there is no longer a glowing base of the arc. Because the surface of the metals remains cold, even when switching direct current within a multiple times increased load limit, stopping the arc is impossible. After the separation the surface of the mercury assumes the hemispherical shape again, with a gap of several Millimeters arises. The recurring voltage is therefore no longer sufficient for a new ignition of an arc.

The contact design shown in Fig. 1 represents with its consisting of two contact surfaces Double contact is the minimal solution to the problem. However, the execution can also be carried out with a Multiple contact takes place, consisting of several opposing, electrical and equal amounts there is mechanically interconnected pairs of contact points. So can also be a ring-shaped Build in contact with any number of pronounced contact points. When the number of contact points is infinite is increased, the borderline case is the ring contact with a smooth surface.

Fig. 2 shows a contact in the form of a smooth Ring contact, which can be used in interrupter tubes manufactured using glass technology. In the glass tube 21, in which the mercury column 22 moves along the tube axis, is provided with the implementation 23 Ring contact 24 melted concentrically. The plane of the preferably made of wire or sheet metal Ring contact 24 produced by bending or pressing is perpendicular to the pipe axis. In some In some cases, it is advisable to install a ring contact with an enlarged diameter. In this case, and otherwise also to facilitate the melting, it is advisable to keep the pipe in the area of the ring contact according to line 25 to expand by blowing.

In Fig. 3, a switching tube is shown, which consists of a combination of metal 31, plastic 35 and refractory insert tubes 33 consists. The tube elements 31 made of metal, the diameter of each in three stages is gradually reduced, are vacuum-tightly joined together by the plastic tubes 35 and electrically isolated from each other. In the middle step of the pipe elements 31, an insert pipe is made refractory material, e.g. B. quartz or ceramic, etc., installed. The end of the pipe elements 31 with the lowest Diameter has a concentric tube extension 36, as multiple contact or smooth ring contact serves. A mercury interrupter tube with any number can be joined together by switching contacts. To ensure the strength and vacuum resistance of the To increase the interrupter, it is useful to cover it with a plastic sheath according to a known one Surrounding method (line 37). In this case, the metal tubes 31 carry connectors 38 which extend through the Extend the plastic sleeve outwards.

The switching tube shown in FIG. 4 and containing mercury 42 is made of two-stage tubular elements 41 built. To increase the security of the connections between two consecutive ones Pipe elements is the inner or outer jacket 451 or 452 of the end sections of the switching tubes with a grooved or thread-like surface.

Fig. 5 also shows an assembled capillary tube made of metal. The two-stage tubular elements 51 are each provided with a contact 56 and equipped with a refractory insert tube 53 . They are connected to one another via a plastic tube 55 .

In some cases it is advantageous to actuate two consecutive contacts one after the other, even with minimal mercury column displacement. This operation is easy to achieve with the elongated shape 562 of the upper contact 56 , so that a contact pair with minimal spacing is formed by this arrangement. The lower limit of this distance is only determined by the dielectric strength of the gap between the contacts and is a few tenths of a millimeter up to a few hundred volts. When using the extended contact 562 , it is expedient to design the refractory insert tube 53 in the form of a casing 531 .

Fig. 6 shows a glass tube design in which a pair of contacts is also provided with a minimal distance. The contact 631 connected to the supply line 632 corresponds to the contact 24 of FIG. 2. The contact 641 can be arranged in any vicinity thereof. It is expedient to provide the contact 641 with an axial shaft 642 and to make it a little higher with a bend through the wall 61 or 611 . This solution can also be advantageous if only a single contact, which is provided at the end of the pipe, is to be installed, in particular if heavy loads occur.

In the example according to FIG. 7, an embodiment is shown which is constructed similarly to that according to FIG. 5, with the only difference that the contact projection 76 is not formed in the middle, but at the narrower pipe end of the pipe element.

The connection point of the pipe 71 is provided with sawtooth-like grooves 751 for better holding of the plastic insulation.

The refractory insert tube can also be placed under the contact in the case of the tubes made of insulating material can be used to protect the pipe wall against arc damage.

In Fig. 2 to 7 only smooth ring contacts are shown for the sake of simplicity. It is straightforward possible, possibly better double contacts or multiple contacts for technological or operational reasons - also mixed - to be used.

Claims (11)

50 claims: 1. Mercury switch tube with a small diameter and a longitudinally shifting therein mercury column with a strongly curved surface, further comprising one or more arranged in the path of movement of the mercury-switching metal contacts, characterized in that at least one switching contact at least two electrically and mechanically rigidly interconnected metal pads (13 , 14) which protrude into the interior of the tube (11) so that there is essentially the same distance between them and the mercury surface (15) in their position shortly before contact is made. 2. mercury interrupter according to claim 1, characterized in that the switching contact is a is concentric to the tube (21) arranged metal ring contact (24), the plane of which is perpendicular to the pipe axis is. 3. mercury interrupter according to claim 1 or 2, characterized in that the interrupter (11) consists of a non-conductive material, for example glass, in which the contact (16, 24) is incorporated, for example melted. 4. mercury interrupter according to claim 1 or 2, characterized in that the interrupter consists of at least two mutually insulated, approximately cylindrical tubular elements (31, 41, 51, 71) made of conductive material, of which at least one with a concentric tube attachment serving as a contact (36, 46, 56, 76) is provided. 5. mercury interrupter according to claim 1 to 4, characterized in that the inner wall of the interrupter is covered at least in the vicinity of the switching path to protect the pipe wall against arc damage with an approximately cylindrical insert tube (33, 43, 53, 73) made of refractory, electrically insulating material is. 6. mercury interrupter according to claim 4 or 5, characterized in that each conductive pipe element is divided into at least two paragraphs with different inner and outer diameters, the larger paragraph of one pipe element with an insulating plastic tube fitted therein (35, 45, 55, 75) reaches over the smaller paragraph of the next pipe element and is connected to it. 7. mercury interrupter according to one of claims 4 to 6, characterized in that the tube extension (36,46,56,76) of each tube element (31,41, 51, 71) having the metallic button is at one end of the plastic tube ( 35, 45, 55, 75) surrounded paragraph is provided. 8. mercury interrupter according to one of claims 1 to 7, characterized in that at least one pair of contacts (631-641, 56-562) is carried out with a minimal distance in the interrupter. 9. mercury interrupter according to claim 8, characterized in that the upper contact (641) of the contact pair is provided with a minimum distance with a shaft (642) , with the help of which he with the implementation, which at a suitable point the pipe wall (61, 611 ) interspersed, connected. 10. mercury interrupter according to claim 8, characterized in that the upper contact (641) of the contact pair is designed with a minimal distance as an extension (562) of the upper pipe socket (56). 11. Mercury interrupter according to one of claims 4 to 8 and 10, characterized in that the inner or outer jacket of the sections of the tubular elements which are in contact with the plastic tube (35, 45, 55, 75) have a sawtooth-like thread that increases the adhesion Grooves (451, 452, 751) is provided. Considered publications:
German Patent No. 844928;
British Patent No. 495,882;
U.S. Patent Nos. 2,087,738, 2,558,783. 1 sheet of drawings © 009 609/313 9.60