DE2626436A1 - CIRCUIT-BREAKER FOR AN ENCLOSED HIGH-VOLTAGE SWITCHGEAR - Google Patents

Description

CIRCUIT-BREAKER FOR AN ENCLOSED HIGH-VOLTAGE SWITCHGEAR.

The invention relates to an electrical, encapsulated circuit breaker with a tight, earthed metal housing, in which there is an insulating gas, in particular Sulfur hexafluoride is located, and with an elongated, mounted in the housing Switching chamber, which surrounds and supports the active parts of the circuit breaker, in particular a first, connected to a fixed contact and from a the ends of the switching chamber carried part, and a second part with a movable one Contact connected and carried by the other end of the switching chamber part.

A circuit breaker of this type is known to be installed inside the Metal housing with the help of insulating sleeves and designed as cross braces Power supply conductors is attached. The installation and fastening of the circuit breaker inside the metal housing are complicated and do not guarantee perfect stability.

The invention is based on the object of avoiding this disadvantage and to provide a circuit breaker with simplified installation and attachment.

The circuit breaker according to the invention is characterized in that that the switching chamber has a central insulating section located between the ends which includes a fastening means on a connected to the metal housing Has carrier, and that this insulating section at the same time the insulation between the ends of the switching chamber and the insulation between each of these ends and the Metal housing guaranteed.

The insulating section, which is advantageously placed in the middle of the circuit breaker allows the switching chamber to be fixed at the height of the center of gravity, what contributes to the balance of the whole. The actual structure of the circuit breaker, namely the switching chamber, is carried out outside the metal housing. A only part, in the present case the insulating section, ensures the insulation between the two active parts of the circuit breaker and the insulation of these Share against the crowd. This arrangement enables parts to be saved and materials. Furthermore, the.

se arrangement according to an invention development the addition of a Conductor or grounding ring on the inner wall of the insulating section to have a separating function to ensure. Any breakdown between the input and output of the circuit breaker is thus prevented.

In the case of a multi-phase circuit breaker, its locked Poles are housed inside a metal housing, enables the aforementioned method of fastening the switching chamber requires the use of a single carrier in the form of a common partition.

Further advantages emerge from the following description of an exemplary embodiment of the invention, which is shown in the single figure on which in section one pole of an encapsulated circuit breaker according to the invention is shown.

In the figure is a sealed, generally cylindrical metal housing 10 closed by an upper removable bottom 12 and is with the encapsulation an encapsulated switchgear (not shown) through two connecting pipes 14, 16 connected, which busbars carried by the frustoconical insulators 22, 24 18, 20 which penetrate into the interior of the housing 10. The housing 10 contains an insulating gas with high dielectric strength, in particular sulfur hexafluoride, and may or may not be with the adjacent departments of the encapsulated plant be connected. A transverse support wall 26 extends parallel to the floor 12 in the middle part of the housing 10 and has a round opening 28 for attachment of the circuit breaker pole 30. The partition 26 is z. B.

firmly connected to the inner wall of the housing 10 by means of welding.

The elongated cylindrical switching chamber of the circuit breaker pole 30 consists of three parts, two end parts 32, 34 and a middle bulbous intermediate part 35. Each end part 32, 34 made of metal is assigned a base 36, 38, of which one bottom 36 has a fixed, tubular contact 40 carries, and the other bottom 38 has a through opening 41 for a tubular movable contact 42, which is in the closed position of the circuit breaker (as shown in the figure) into the contact 40. The moving contact 42 is assigned a blow cylinder 44 which carries an insulating nozzle 46 which is shown in FIG the closed position of the circuit breaker surrounds the ends of the contacts 40, 42. The blowing cylinder 44 fits onto a stationary piston 48, which by itself brackets 50 supporting the floor 38. The moving contact 42 extends through a drive rod 52, which the lower floor 54 of the metal housing 10 crosses.

The nature and operation of the circuit breaker 30 are well known to those skilled in the art and need not be further described.

The bulbous part 35, made of insulating material, forms an insulating section, which is inserted between the parts 32, 34 which are connected to the fixed contact 40 and the movable contact 42 are connected. The insulating portion 35 has on its outer circumference in the central part on a flange 56, which during installation of the circuit breaker 30 inside the housing 10 on the side edge of the Opening 28 of the wall 26 comes to rest, and is fastened by screw bolts 58. The busbars 18, 20 are connected to the floor 26 or

connected to the bottom 38, which are designed as contact lugs.

The metal housing 10 is conventional to earth tied together and the metallic support wall 26 is at earth voltage. The insulating section 35 must have a sufficient level of insulation between each of the ends 32,34 opposite of wall 26, and the length of the section will be of this level of insulation certainly. It is advantageous to the insulating section 35 to the entire height of the Expand the arcing zone to avoid any ignition between the energized standing active parts and the ends 32, 34 of the switching chamber to avoid.

According to a development of the invention, a grounding ring 60 is made of metal mounted on the inner wall of the insulating section 35 in the vicinity of the wall 26. This Earthing ring 60 is embedded in the insulating material of section 35 Conductor 62 electrically connected to wall 26. The ground ring 60 is on the Alignment line between the two ends 32, 34 and prevents any interruption of the insulation between these parts along the inner wall of the insulating section 35. An insulating interruption on the outer wall of the insulating section 35 is intercepted by the wall 26, and It is easy to see that when the circuit breaker 30 any breakdown inevitably takes place on the grounding ring 60 or on the wall 26, and that the insulation between the input and output terminals of the circuit breaker preserved.

The invention has been made with reference to a housing with a single Circuit breaker pole described, but it is clear that they are beneficial on one Housing with different poles, especially the three poles of the circuit breaker, be applied can. In this case the three poles are on one common partition wall fixed in one of the dielectric strength adapted Distance.

Claims (8)

Claims U Electrical, encapsulated circuit breaker with a tight, earthed metal housing, in which there is an insulating gas, in particular Sulfur hexafluoride is located, and with an elongated, mounted in the housing Switching chamber, which surrounds and supports the active parts of the circuit breaker, in particular a first, connected to a fixed contact and from a the ends of the switching chamber carried part and a second with a movable part Contact connected and carried by the other end of the switching chamber part, thereby characterized in that the switching chamber (30) has a central one between the ends (32, 34) contains lying insulating section (35), which a fastening means (56) on a carrier (26) connected to the metal housing (10), and that this insulating section (35) at the same time the insulation between the ends (32, 34) the switching chamber and the insulation between each of these ends and the metal housing guaranteed. 2. Circuit breaker according to claim 1, characterized in that the insulating section (35) in the middle part of the elongated switching chamber (30) is arranged, and that the fastening means (56) in the central part of the insulating section is appropriate. 3. Circuit breaker according to claim 1 or 2, characterized in that that the fixed (40) and the movable (42) contact in the axis of the switching chamber (3o) are aligned and that the insulating section (35) which is separated by the Position of the contacts (40, 42) encloses certain arc zone. 4. Circuit breaker according to claim 3, characterized in that the separation distance of the contacts (40, 42) in the open position is smaller than that Length of the insulating section (35). 5. Circuit breaker according to one of the preceding claims, thereby characterized in that a blower with cylinder (44) and piston (50) with the movable contact (42) is connected and is placed in the switching chamber. 6. Circuit breaker according to one of the preceding claims, characterized characterized in that a grounding ring electrically connected to the metal housing (10) (60) is lined up in the insulating section (35) to avoid any isolation interruption to avoid between the ends (32, 34) of the switching chamber (30). 7. Circuit breaker according to claim 6, characterized in that the grounding ring (60) on an annular strip of the inner wall of the insulating section (35) is attached and electrically connected to the carrier (26). 8. Circuit breaker according to one of the preceding claims, characterized characterized in that it has several poles, each of which has an elongated switching chamber with insulating section, which is on a common as a partition wall of the metal housing trained metal carrier are attached.