DE1261219B - Vacuum switch - Google Patents

Description

fJUNDESREPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

HOIh

German class: 21c-35/09

Number: 1 261219

File number: W 39919 VIII d / 21 c

Filing date: September 16, 1965

Open date: February 15, 1968

The invention relates to vacuum switches with an at least partially made of insulating material Housing and a tubular condensation screen made of conductive material arranged therein. Of the Condensation screen surrounds the two contact pieces connected to the connection points of the switch. Its purpose is to catch the arc products that occur when the contact pieces are disconnected, so that they cannot settle on the insulating material of the housing.

According to the invention, the condensation screen is provided with contact pieces and is in the switched-on position connected to the two connection points so that it is part of the circuit through the Switch forms. In this way, in addition to its well-known function, the condensation screen becomes To prevent precipitation on the insulating material, to conduct the current through the switch utilized. You can thereby improve the current-carrying capacity of the switch and without great effort thus either the parts previously used for the current flow through the switch are dimensioned smaller or allow a higher rated current. The current carrying capacity of the condensation screen is advantageously large because it has a large area for radiating heat.

The condensation screen is preferably part of a current path that is parallel to a current path with two arcing contact pieces enclosed in a known manner by the condensation screen. The current path over the condensation screen is then opened without arcing before the current over the switch is finally interrupted by disconnecting the arc switch.

In order to get by with a simple drive for the switch even with a time-delayed opening, the movable arcing contact can interact with a metal part via a spring, which in the switched-on position is in contact with the contact piece of the condensation screen stands. This gives a lost motion connection. The first part of the switch-off movement opens the current path leading through the condensation screen. As the movement continues, the from Arc switches surrounded by a condensation screen separated without a special drive is needed.

In contrast to known vacuum switches, where the condensation screen is attached to parts of insulating material the housing is attached, it can be firmly connected to a metallic end plate in the invention, which forms part of the housing and with a vacuum switch

Applicant:

Westinghouse Electric Corporation,

Pittsburgh, Pa. (V. St. A.)

Representative:

Dr. jur. G. Hoepffner Lawyer,

8520 Erlangen, Werner-von-Siemens-Str. 50

Named as inventor:

Russell E. Frink, Pittsburgh, Pa. (V. St. A.)

Claimed priority:
V. St. v. America November 16, 1964
(411 259)

Connection rail is provided. The condensation screen is then also in the switch-off position by the connecting rail on a certain potential.

However, the invention can also be applied to switches in which the condensation screen is attached isolated. Here you can z. B. the isolated attached condensation screen as a fixed Use a contact piece that interacts with a movable contact piece at both ends.

Furthermore, the condensation screen can also be arranged to be movable itself. He then forms a movable one Contact piece that interacts with a stationary contact piece. The drive takes place again expediently by a backlash connection with the drive member of parallel arcing contacts.

The invention as indicated in the foregoing is in the drawings illustrated. In these is

F i g. 1 is a vertical cross-section through a vacuum switch according to the principles of FIG Invention. The contact arrangement is shown in the switched-on position;

F i g. Figure 2 is an enlarged partial section through the actuator. It essentially runs along the line II-II of FIG. 1. The contact arrangement is again shown in the on position;

F i g. 3 shows a modified form of the invention in which two movable main contact pieces

809 508/257

As in Fig. 2, the movable line connection 22 is essentially U-shaped. It has outwardly projecting bolts 30 which are articulated with drive members made of insulating material 31 are connected. Therefore each vacuum interrupter unit 10 has two cooperating ones Drive members 31, which are preferably made of insulating material. These drive links cause a reciprocating off and on for example Glass, and two end plates 12, 13, the io switching movement of the U-shaped conductor 22 and thus

be turned. The figure essentially shows a section through the device. The contact arrangement is drawn in the on position;

F i g. Figure 4 is a vertical section through another embodiment of the invention. The contact pieces are drawn in the on position.

The switch according to FIG. 1 has a housing 10 which contains a high vacuum. The housing 10 includes a cylinder ll made of suitable insulating material,

the ends of the cylinder 11 close. Between the end plates 12, 13 and the glass cylinder 11 are suitable seals 12 a, 13 a provided to vacuum-tight connections at these points result.

In the housing 10 two separable arcing contact pieces 15, 16 are accommodated, the electrical are bridged by a main contact device 17. The main contact device includes also of the main contact piece 19.

In order to prevent the passage of gas along the downwardly extending flange part 13 b of the end plate 13 and the reciprocating main switch 19, a flexible metal bellows 35 is provided. The upper end of the bellows 35 in FIG. 1 is attached to the plate 13 with the aid of suitable gas-tight connections. The lower end of the bellows 35 is appropriately attached to the lower several circumferentially arranged movable contact outer surface of the main contact piece 19, clock finger 18 and a main contact piece 19

As in Fig. 1, the set of main resilient contact fingers 18 are carried by a metallic, cylindrical condensation screen 20. The condensation screen is z. B. connected to the upper end plate 12 by brazing. The main contact fingers 18 are made by slitting a metallic cylinder C, and the fingers obtained thereby are bent inwards, as shown in FIG. 1 a longitudinal bore 19 d, which enables a movable arc switch 16 to move back and forth. Between an outwardly extending flange part 16 a and an upper plane 19 e of the main switch 19, a second flexible metal bellows 37 is provided to prevent gas passage, which allows gas passage along the bore 19 d into the interior 40 of the evacuated housing

shows. The slotted cylinder that blocks 30 10 as a contact ring. A compression spring 16 b is between the

g g y

is used, is attached in a suitable manner to the inside of the condensation screen 20.

It is known that metallic vapors are generated in a vacuum switch by the action of an arc. These have a tendency to deposit on the switch's insulating material. they form then metallic coatings that impair the insulating properties of such surfaces. To protect this Insulating surface against metallic deposits

Flange 16 a and the underside of a bore 19 / of the movable main contact 19 arranged, around the movable arcing contact piece upwards against the fixed arcing contact piece 15 to press.

Two nuts 42, 44 hold a flexible ladder tape 46 on the lower threaded portion 16 c of the movable arc switch 16 fixed. The other end of the flexible tape 46 is with a

Condensation screens are used. Such 40 screw 48 on the movable connecting conductor 22 be shields generally consist of an im solidifies, as shown in FIG. 1 shows. So they are movable

the

essentially tubular metal shield, the arc path between the normal arc electrodes of the switch. The shield is from one or both end plates of the device electrically isolated. It is spatially between the arc gap and the inner surface of the Insulated housing of the switch. The screen works in such a way that it captures and precipitates metal fumes, those from the arc path towards the isolating fabric area wander.

As in Fig. 1, the lower end plate 13 has a downwardly extending cylindrical guide flange part 13 b. The flange guides the reciprocating, vertically running switch-off and switch-on movement of the main switch piece 19, which is connected to the fixed, resilient contact fingers 18 in the switch-on position of the device, which is shown in FIG. 1 is shown, cooperates.

The main contact 19 has a part 19 α with reduced dimensions, so that a shoulder 19 b is formed. The shoulder 19 & receives a connecting conductor 22 to which a conductor 23 made of tapes is fastened with a rivet 25. A nut 28 is screwed onto a threaded part 19 c of part 19 α. This connects the conductor 22 securely to the movable main contact 19,

Arc contact piece 16 and the main contact piece 19 are always electrically connected to one another.

As in Fig. 1 drawn, a connecting rail 54 is attached to the upper end plate ^ with bolts 50, 52, to which the LeItUQgL ₁ can be attached in a suitable manner.

As previously indicated, the metal vapors in vacuum switches when exposed to an arc arise, the tendency to condense on insulating surfaces of the switch housing and thus metallic To form coatings that impair the insulation properties of such surfaces. For protection A condensation screen 20 has proven particularly useful on the surfaces against such metallic deposits. Such a screen 20 generally comprises a tubular metal portion defining the arc path between the normal electrodes of the switch and electrically opposite both electrodes and is also isolated towards the end. This electrically isolated screen is spatially located between the Arc gap and the inner wall of the ordinary insulating housing 11 of the switch. He serves to capture and condense metal vapors emitted from the arc path in the direction of the Insulating surfaces migrate.

In the case of the invention, the condensation screen 20 constitutes a component of the main contact device 17

represents that bypasses the arc switch device. It enables the circuit breaker leads to higher continuous currents without inadmissible heating.

The condensation screen 20 shown is a direct component of the current path in FIG the switched-on position of the switch, as shown in FIG. 1 shows.

When switching off, the two insulating material members 31 are pulled down by a suitable drive. This effect causes the U-shaped conductor 22 to also move downward. This leads to a downward disconnection movement of the main contact piece 19, so that it separates from the main contact fingers 18. The electrical circuit must then make its way via the arcing contact pieces 15, 16, which later open because of the lost motion connection at a time when the isolating separation distance "d". is made by the spring 16 b . In other words, the movable contact piece 19 separates first, and then, after the lower end 19 g has hit the driving pin 42, the movable arcing contact piece 16 is forced to move downward with the movable main contact piece 19. Here, an arc is drawn between the arcing contact pieces 15, 16, which is extinguished in the usual way. It is therefore to be noted that the movable main contact pieces 18, 19 before the separation of the arcing contact pieces

Loosen 15, 16 from each other so that no arc erosion occurs on the contact pieces 18, 19.

When switching on, the insulating material members 31 are moved upwards. This initially results in a Contact between the arcing contact pieces 15,

16. The further upward movement, which is caused by the insulating material members 31, finally results in a contact between the movable main contact pieces 19 and the flexible ones Contact fingers 18, so that the arcing contact pieces 15, 16 are bridged. The result is in the on position of the switch, as shown in FIG. 1 shows an electrical parallel path of the main contact pieces 18, 19 to the arcing contact pieces 15, 16. This path takes over because of its smaller Resistance practically the entire current.

From the above description it is clear that the conventional metallic condensation screen 20 according to the invention receives an important additional function. Namely, it is used as part of the main contact assembly 18,19 is used, which bridges the arc electrodes. This enables enlargement of the current without inadmissible heating. Due to the fact that the condensation screen 20 Large area opposite the glass housing 11, the condensation screen 20 can through the glass housing 11 easily give off heat that is quickly radiated.

F i g. 3 shows a modified embodiment 60 of the switch. This shows the arrangement of the movable arc and main contact pieces 16, 19 of FIG. 1 doubled, so that there is a mirror-image arrangement to the center line CL between the upper and lower part of the switch. Therefore, two main separation lines are created before the production of the arc gap, and the support of the condensation screen 20 a, which is electrically insulated in this way, reduces the voltage stress between itself and the moving main contact pieces.

When the disconnection of the switch 60 the movable contact assembly is moved downward while the associated switching arrangement piece 19 A is moved upward. As a result, two isolating distances are obtained at the same time. The two movable arcing contact pieces 16, 16 A are then set in motion to open the switch.

When switching on, the opposing parent Main and arc contact pieces 19, 16 moved against each other, so that the switch is turned on is, as shown in FIG. 3 of the drawing is shown.

F i g. 4 shows a modified embodiment 61. In this condensation screen 20 b is resiliently mounted by means of several compression springs 62 surround the spring bolt 63rd The bolts 63 are arranged on the periphery of the support ring 64. This is sealed between the two insulating parts 11a, lift of the switch 61. When switching on the movable condensation screen 20 b through the lower main movable contact piece 19 is moved upward until it comes into contact with the upper set of main contact fingers 66th

When switching off, the downward switching off movement of the lower movable main contact 19 causes a movement of the condensation screen 20 b until it is separated from the upper main contact fingers 66. Then the second set of main contact fingers 18, 19 separates and finally the arcing contacts 15, 16 open in the in the same way as on the basis of FIG. 1 of the drawing was explained.

From the foregoing description it can be seen that a condensation screen assembly is provided which serves as the main contact piece. This reduces the current rating of the switch without inadmissible heating increased.

Claims (6)

Patent claims: 1. Vacuum switch with a housing and at least partially made of insulating material a tubular condensation screen made of conductive material disposed therein, the two separable, connected to the two connection points of the switch contact pieces surrounds, thereby characterized in that the condensation screen (20) is provided with contact pieces (18, 19) and in the switched-on position with the two connection points (end plates 12, 13) is connected so that it is part of the circuit forms through the switch. 2. Vacuum switch according to spoke 1, characterized in that the condensation screen (20) is part of a current path which is parallel to a current path with two arcing contact pieces (15, 16) enclosed in a known manner by the condensation screen (20). _t 3. Vacuum switch according to spoke 2, characterized in that the movable arc switching piece (16) via a spring (16 b) interacts with a metal part (19) which is in contact in the switched-on position with the switching piece (18) of the condensation screen (20) . 4. Vacuum switch according to claim 1, 2 or 3, characterized in that the condensation screen (20) with a metallic end plate (12) is firmly connected, which forms part of the housing (10) and with a connecting rail (54) is provided. 5. Vacuum switch according to claim 1, 2 or 3, characterized in that the isolated attached Condensation screen (20 o) acts as a fixed contact piece that is connected to each other at both ends a movable contact piece (19, IiM) interacts (Fig. 3). 6. Vacuum switch according to claim 1, 2 or 3, characterized in that the condensation screen (20 b) is movably arranged and cooperates with a stationary contact piece (contact finger 66) (F i g. 4). Considered publications:
British Patent No. 291,815. For this purpose 2 sheets of drawings 809 508/257 2.68 © Bundesdruckerei Berlin