NO316005B1 - An extinguishing chamber for a self-extinguishing circuit breaker, and a thermoplastic plastic enclosure - Google Patents

Description

BACKGROUND OF THE INVENTION

The invention relates to an extinguishing chamber for a high-voltage circuit breaker, contained in

an enclosure filled with a gas of high dielectric strength, and which contains:

- separable contacts,

- a device for extinguishing an arc by self-expansion of the gas after the arc has been brought into rotation due to the action of a magnetic field produced by an electromagnetic coil, - means for connecting the chamber to the outside of the enclosure during the self-expansion phase after the contacts have been separated, - the insulating enclosure, formed by end-to-end assembly of two half-shells provided by molding a thermoplastic plastic material, - and a protective device made of plastic material fitted on the inner surface of the enclosure to protect the latter against the effects of the electric arc, as the plastic material in the protective device has a higher thermal resistance than the thermal resistance of the thermoplastic plastic material in the two half-shells.

In circuit breakers with self-extinguishing expansion and rotating arcs, particularly described in documents US-A-5,166,483 and EP-A-768,692, the occurrence of the arc when separation of the contacts takes place causes a rapid pressure increase in the sulfur hexafluoride SF6 gas contained within in the enclosure, with the formation of a gas outflow through the tubular channel in the movable contact. The internal volume of the enclosure, and the diameter of the connection channel, are calculated to achieve an optimal gas flow that enables rapid arc extinguishing. The insulating enclosure is generally made of a heat-setting plastic material, e.g. epoxy plastic-based, preferably with the addition of filler or reinforcement in the form of particles or fibres, and curing agents. The nature of the plastic material and the weight composition must meet specific requirements from the behavior of the SF6 gas in the presence of an electric arc.

In particular, the enclosure must withstand the impact of the arc and of the SF6 decomposition products in order not to undergo any destruction or premature wear.

Production of a heat-setting plastic material enclosure is achieved by molding the mixture of plastic material and fillings. The cost of such a casting operation is very high.

SUMMARY OF THE INVENTION

The purpose of the invention is to produce an extinguishing chamber for a self-extinguishing expansion circuit breaker, using an insulating enclosure which has a low manufacturing cost.

The extinguishing chamber according to the invention is characterized in that the protection device is formed by two shields made of plastic material, and that joining means cooperate with the opposite ends of the two shields in order to center them in relation to the longitudinal axis of the enclosure and to improve the mechanical strength of the connection , said joining means comprising a centering element in the form of a frame arranged inside the enclosure in the mid-plane of the interface between the two half-shells.

According to one feature of the invention, the thermoplastic plastic material in the two half-shells is polycarbonate-based. The protective screen is formed from a pre-cut and folded polytetrafluoroethylene PTFE sheet. The frame of the centering element is made of rigid plastic material and includes a pair of positioning grooves for positioning the two screens.

The polytetrafluoroethylene sheet in the screen preferably has a uniform thickness chosen between 0.5 mm and 3 mm, and comprises a base joined by four side surfaces at

folding lines. The base of the plate is equipped with a circular opening for operation of the screen on a projection arranged on the panel for the half-shells.

BRIEF DESCRIPTION OF THE DRAWINGS

Other advantages and features will appear more clearly from the following description of an embodiment of the invention given as a non-limiting example and represented in the attached drawings, where: - fig. 1 is a cross-sectional view of the extinguishing chamber equipped with the enclosure according to the invention; - fig. 2 is a perspective view of the centering frame for the protective screens; - fig. 3 is an elevational view of the frame in fig. 2; - fig. 4 is a cross-sectional view along line 4-4 in FIG. 3; - fig. 5 shows a polytetrafluoroethylene sheet cut to form a protective screen; - fig. 6 is a cross-sectional view along line 6-6 in FIG. 5; - fig. 7 is a detailed view, enlarged, of FIG. 6, showing the fold lines of the plate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

In fig. 1 comprises an extinguishing chamber 10 for one pole of a high-voltage circuit breaker of the self-extinguishing expansion type, an enclosure 12 made of insulating material and filled with a gas of high dielectric strength, in particular sulfur hexafluoride SF6. The inner volume of the extinguishing chamber 10 contains a tubular movable contact 14 which works together with a stationary contact device 16 linked to an electromagnetic coil 18 for rotation of the arc. The movable contact 14 is located at the end of an elongated tube 20 made of conductive material, which is capable of sliding tightly through one of the panels 22 of the insulating enclosure 12. The outer end of the tube 20 is connected to a drive mechanism (not shown) designed to move the movable contact 14 between a closed position (Fig. 1) and an open position.

The stationary contact device 16 is extended by a conductive pin 24 of cylindrical shape which passes through the opposite panel 26 in the longitudinal direction of the enclosure 12, and is connected to the outside by means of the terminal strip 28 for the pole. The hollow tube 20 enables the extinguishing chamber 10 to communicate with the outer volume of the enclosure 12 as soon as the contacts 14, 16 are separated to enable self-expansion of the gas.

The insulating enclosure 12 is formed by assembling the two half-shells 12A, 12B, each produced by molding a polymer plastic material which has good mechanical strength.

The electromagnetic coil 18 which is used to extinguish the arc consists of an axial stack of conductive copper bonds which abut each other and which are electrically connected in series by means of fixing screws 30 with intermediate cut-in parts made of insulating material. The front surface of the coil 18 is provided with an arc travel groove 32, said groove 32 of annular shape with an inner diameter slightly larger than the diameter of the movable contact 14. The rear winding on the opposite side of the front surface is connected to the conductive pin 24 with support arms 34 which form copper spacers, which are separated from the internal, stationary contact device 16 by insulating base 36. Two steel discs 38, 40 are fixed with screws 30 to the rear surface of the coil 18, after the insertion of insulating discs 41.

The stationary contact device 16 for the self-extinguishing expansion circuit breaker comprises three contact fingers in the form of circular sectors, circumferentially arranged to form a cylindrical hollow contact. The inner diameter of this hollow contact essentially matches the outer diameter of the movable contact 14, so that it allows telescopic sliding, respectively at the beginning of the opening movement and at the end of the closing movement of the movable contact 14.

The two shells 12A, 12B with a square cross-section for the enclosure 12 are provided by means of a thermoplastic plastic material, in particular polycarbonate-based. In order to protect the inner surface of the enclosure 12 against the thermal effects of the arc formed inside the extinguishing chamber 10, a protective screen 100, 102 made of heat-resistant plastic material is incorporated in each half-shell 12A, 12B. The screen 100, 102 is preferably formed from a pre-cut and folded polytetrafluoroethylene PTFE sheet, so that it presents a shape adapted to the cross-section of the shells 12A, 12B.

With reference to fig. 2 and 4, a centering element 104 is used for end-to-end assembly of the two screens 100, 102 inside the enclosure 102. The centering element 104 is formed by a frame 106 made of rigid plastic material with a square cross-section, equipped with two positioning grooves 108, 110 offset along the two sides of the periphery of the frame 106. The cross-section of the frame 106 is smaller than the square cross-section of the enclosure 12.

In fig. 5-7, the polytetrafluoroethylene PTFE plate for each protective screen 100, 102 has a uniform thickness of approximately 1 mm, and comprises a base 112 of square cross-section, to which four juxtaposed surfaces 114, 116, 118, 120 are connected by fold lines 122. The base 112 of the pre-scored plate 111 is provided with a circular opening 124 which allows the screen 100, 102 to be placed on a projection 126, 128 (Fig. 1) provided on the inner surfaces of the panels 22, 26 of the enclosure 12.

The protective screens 100, 102 are fitted into the extinguishing chamber 10 in the following way: The first screen 100, whose base 112 is carried on the panel 22, is fitted into the half-shell 12A equipped with the conductive tube 20. The projection 126 then enters the opening 124 and performs axial positioning of the screen 100. The four side surfaces 114, 116, 118, 120 of the screen 100 extend along the inner surfaces and delimit the square cross-section of the half-shell 12A.

The second screen 102 is fitted into the second half-shell 12B in a similar manner after the assembly formed by the coil 18 and the stationary contact device 16 has been fitted.

The two screens 100, 102 are connected to each other by means of the centering element 104 arranged inside the extinguishing chamber 10 in the middle plane of the interface between the two half-shells 12A, 12B in the assembled position. The two half-shells 12A, 12B must then simply be finally fixed by means of mounting screws (not shown) so that an effective, continuous protection is formed for all the internal surfaces of the extinguishing chamber 10. The presence of the centering frame 106 additionally enables the connection between the two screens 100, 102 to be reinforced.

It is clear that the invention relates to any other cross-section of the enclosure 12, and in particular a cylindrical cross-section. The thickness of the polytetrafluoroethylene PTFE plate can also be adjusted to suit the breaking capacity of the circuit breaker, and can be in the range of 0.5 mm to 3 mm.

Claims (7)

1. An extinguishing chamber for a high-voltage circuit breaker, contained in an enclosure (12) filled with a gas of high dielectric strength, and comprising: - separable contacts (14, 16), - a device for extinguishing an arc by self-expansion of the gas after the arc has been brought into rotation due to the action of a magnetic field produced by an electromagnetic coil (18), - means for connecting the chamber (10) to the outside of the enclosure during the self-expansion phase after the contacts (14, 16) has been separated, - the insulating enclosure (12), formed by end-to-end assembly of two half-shells (12A, 12B) provided by molding a thermoplastic plastic material, - and a protective device made of plastic material adapted to the inner the surface of the enclosure (12) to protect the latter against the effects of the electric arc, the plastic material in the protective device having a higher thermal resistance than the thermal resistance of the thermoplastic material in the two h the elven skulls (12A, 12B), characterized in that the protective device is formed by two shields (100, 102) made of plastic material, and that joining means cooperate with the opposite ends of the two shields (100, 102) to center them in relation to the longitudinal axis of the enclosure (12 ) and to improve the mechanical strength of the connection, said joining means comprising a centering element (104) in the form of a frame (106) arranged inside the enclosure (12) in the mid-plane of the interface between the two half-shells (12A, 12B) . 2. Extinguishing chamber as stated in claim 1, characterized in that the thermoplastic plastic material in the half-shells (12A, 12B) is polycarbonate-based. 3. Extinguishing chamber as stated in claim 1 or 2, characterized in that the protective screen (100, 102) is formed from a pre-cut and folded polytetrafluoroethylene PTFE sheet (111). 4. Extinguishing chamber as specified in one of claims 1-3, characterized in that the frame (106) has a shape adapted to the shape of the enclosure (12). 5. Extinguishing chamber as stated in claim 4, characterized in that the frame (106) for the centering element (104) is made of rigid plastic material and comprises a pair of positioning grooves (108, 110) for positioning the two screens (100, 102). 6. Extinguishing chamber as stated in claim 3, characterized in that the polytetrafluoroethylene plate (111) for the screen (100, 102) has a uniform thickness chosen between 0.5 mm and 3 mm, and comprises a base (112) connected to four side surfaces (114, 116, 118, 120) by fold lines (122). 7. Extinguishing chamber as specified in claim 6, characterized in that the base (112) of the plate (111) is equipped with a circular opening (124) for operation of the screen (100, 102) on a projection (126, 128) arranged on the panel (22, 26) for the half-shells ( 12A, 12B).