SE448793B - gas blast - Google Patents

Description

The object of the invention is to provide a switch of the above-mentioned type which is simpler and cheaper than the corresponding previously known constructions and which has better breaking properties. This is achieved according to the invention by the measures stated in the characterizing part of claim 1. By providing the free end of the fixed contact part with a ring which seals between the fixed contact part and the sleeve of the movable contact part, leakage from the gas flow is avoided, so that the entire gas flow is guided in through the fixed contact part. To prevent the arc from burning on the end surface of the fixed contact part and instead achieve that it is guided into the opening of the fixed contact, where its foot point is subjected to a more efficient cooling, an edge of the ring is allowed to enter over the end surface of the fixed contact part. Furthermore, a tight sleeve can be arranged inside the fixed contact part in order to prevent hot gases from flowing out through the sides of the fixed contact part, which is usually slit lengthwise so that it forms contact fingers.

The invention will be described in more detail with reference to the accompanying drawing, in which Figures 1 and 2 show the switch according to the invention in the closed and open position, respectively. Fig. 3 shows a detail of the switch on an enlarged scale.

The switch according to Figs. 1 and 2 is designed with a main contact point which leads the operating current, but has no switching function and a switching point which is responsible for the switching function itself. The invention mainly relates to the design of the switchgear, but as appears from the description, the invention can just as well be applied to a switch without a separate operating current contact.

The switch according to Figs. 1 and 2 has a substantially cylindrical housing 22 with upper and lower lids ZÄ, 23. The housing is filled with SF6 gas with an overpressure of eg 0.2 MPa. The switch has two connection rails 1 and 2, which must be able to be connected and separated from each other. A pair of contact flanges 3 and U are connected to these rails, for the latter part by means of an angle 5. Attached to each flange is a fixed contact part 6 and 7, respectively, which consists of conductive cylinders which are longitudinally slotted into contact fingers. These fixed contact parts are connected to a movable contact part in the form of a conductive cylinder 8, which is fastened to a contact rod 10 by means of a conductive flange 9.

The contact rod is axially movable and mounted in a fixed sleeve 11 and at its lower end connected to a connecting rod 11 of insulating material which is connected to a crank arm 12 on a shaft 13. By turning the shaft 13 one can thus move the contact rod 10 up and down and thus stop and open the switch.

IV Nå 'e 15 20 25 30-' vd KD s 448 793 Between the flanges 3 and 9 the breaking point itself is arranged. This consists of a fixed contact part 18 and a movable contact part 17. The fixed contact part 18 consists of a conductive cylinder which is attached to the flange 3 in the middle of a hole 21 therein. The contact part 18 is slotted lengthwise so that it forms contact fingers which grip the movable contact part 17, which forms a head on the rod 10.

On the upper end of the sleeve 14, which guides the rod 10, there is a flange 15 which fits in the cylinder 8 and forms a piston therein so that the cylinder and the piston together form a pump.

When opening the switch, the moving parts B, 9, 10, 17 of the switch are pulled downwards by the connecting rod 11, the main contact point primarily being opened by the cylinder 8 and the flange 9 sliding away from the fixed contact part 6. The current then passes to the switch contact point 17. , 18 which opens during the continued movement. At the same time, the gas in the cylinder 8 is compressed and flows at high speed up through the holes 16 in the flange 9, up around the movable contact part 17 and up through the fixed contact part 18 and out through the hole 21 in the flange 3.

To control this gas flow, according to the invention an insulating sleeve 19 has been arranged on the upper side of the flange 9 so that it surrounds the holes 16 and the fixed contact part 18. This sleeve is completely cylindrical with straight walls. Furthermore, a ring 20 is arranged around the lower end of the fixed contact part 18 for sealing between the fixed contact part 18 and the sleeve 19. This ring enters with an edge over the end surface of the fixed contact part to prevent the arc from burning on this end surface. and instead guide the focal point of the arc into the opening of the fixed contact member.

In this way it is ensured that the gas flow from the holes 16 goes up around the contact part 17 and in through the contact part 18. To prevent the hot gases from flowing out through the slots in the contact part 18, this can be provided on the inside with a sleeve 30 as shown in fig. 3. This sleeve can be made of a conductive material, such as copper.

When breaking, as mentioned, hot gases flow from the breaking point up through the contact part 18 and the hole 21 and up towards the upper cover ZH. If no special measures were taken, this could easily result in a pressure wave forming against the cover 2% and being reflected from this towards the hole 21 and down towards the breaking point, which could disrupt the breaking process.

Claims (2)

448 793 However, by providing the cover with an elevation or wart 25, the gas flow is broken and led radially out towards the sides of the housing and down along these where it is subsequently cooled. The effect can be enhanced by providing the lid with a raised edge 28 so that the lid takes the form of an annular trough which directs the gas flow outwards and downwards. To prevent the gas flow from being reflected from the sides of the housing towards the breaking point, this is surrounded by an upper insulating wall 26 which goes down over the breaking point. A similar wall 27 is provided in the lower part of the housing to protect the contact part 7 against the hot gases. PATENT REQUIREMENTS Compressed gas switch comprising a sleeve-shaped fixed contact part (18) and a corresponding rod-shaped, axially movable contact part (17) and a pump device (8, 9, 15, 16) for blowing compressed gas around the movable contact part during a breaking process the movable contact part, the movable contact part being provided with an insulating, cylindrical sleeve (19) which surrounds the fixed contact part in order to control the gas flow around the movable contact part during the breaking process and through the fixed contact part, characterized in that it facing the movable contact part (17) facing the free end of the fixed contact part (18) is surrounded by a ring (20) which seals between the insulating sleeve (19) and the fixed contact part and which covers the end surface of the fixed contact part. Compressed gas switch according to claim 1, characterized in that the fixed contact part (18) is provided on the inside with a sleeve (30) to prevent pressurized gas from penetrating through slots in the side of the fixed contact part during the breaking process.