DE1769880U - OPEN CONTROL UNIT. - Google Patents

Description

Switch cell of the open construction.

The innovation relates to switch cells of the open design or on so-called combination switching cells, which for example consist of a lower part the encapsulated and an upper part of the open construction, and has inter alia. the task of the endangerment of the operating personnel by short circuits to limit the effects of arcing in the switchgear cubicle to a minimum. Encapsulated switchgear cells are the prerequisites for adequate protection of the operating personnel through the sheet steel cladding on all sides. Different on the other hand, it is the case with switch cells of the open design. It is in this one though Case of the circuit breaker room against the operating or. Inspection through steel doors or walls that can be reinforced with refractory material accordingly shielded, but the circuit breaker compartment has no cover and is against the operating b'w. Control corridor completely open. So the operator is in the event of a short circuit in the disconnector room to the greatest possible extent endangered, with an added complication that by a generally sloping Inclination of the floor and ceiling of the disconnector room the pressure wave in the unfavorable Case is directed downwards at an angle to the operating personnel. The hazard can also be achieved by attaching Pressure relief openings in Circuit breaker space must not be reduced, as it has been shown that the fire escapes for the most part takes place from the open sides of the separator space.

The innovation eliminates this deficiency and ensures adequate protection of the operating personnel by using the control or. Operating side open disconnector space cover devices are arranged which not only protect the operating personnel from the effects of the arc in the event of short circuits occurring in the disconnector space, but also ensure pressure relief of the disconnector space. It has proven to be expedient to use guide plates as covering devices which are arranged in such a way that the hot arc gases emerge obliquely upwards. These guide plates can either be inseparably attached, or they are both for example inserted or pushed into holding devices. In order to have a closed cover in the direction of the operating personnel To get the front, the inclined guide plates are staggered so that they overlap like scales. Care must be taken that the spaces between the individual plates are kept so large that the arc gases can escape unhindered, so that the compressive stress. the walls and the baffles are kept as small as possible. It is of course also possible to use flaps instead of the guide plates.

These are normally closed and will be closed in the event of an occurrence Short circuit opened by the pressure effect. The opening angle allows the exit direction of the arc gases can be determined. The guide plates resp. Flaps can be made of sheet metal or similar material, but it is useful if, for example, observation of the separator room is desirable, turn it off to manufacture transparent material or with inserts made of transparent material instead of the sole use of plates or flaps. it is of course also possible to use a combination of both types.

It has proven to be advantageous to use the upper part of the separator space to be covered with guide plates and flaps to be provided on the lower part. Open this then only when there is very strong pressure development in the separator space, which is rare occurs, so that in general the flaps remain closed and the always open The outlet openings between the guide plates are moved a little further upwards.

It has been shown that through the use of covering devices the risk of direct arc effects on the operating personnel completely could be eliminated.

As an additional measure, it can also be installed in the disconnector compartment at the rear ein'Druckentlastungsöfffnung are provided, which in the relief chimney of Switching cell opens. This relief port helps reduce the amount of through to reduce the arc gases escaping and also the To reduce pressure loads on the partition walls. Since with switch cells with Double busbar system, the relief openings of the two isolator rooms oppose, there is a risk that the escaping gases from the one separator space get into the other. It is therefore appropriate between the two relief openings to arrange a partition inside the relief chimney. It is of course too possible, the rear walls of the separator rooms, which at the same time serve as a discharge chimney for the circuit-breaker room serve to pull so high into the main relief chimney, that the relief openings of the two separator spaces mutually through these walls are covered. In the event that the circuit breaker room does not have a discharge chimney has a relief channel upwards, but only downwards, have the Separator rooms have a common rear wall on which a flap is arranged at the top. This is affected by the action of the escaping gases drawn separator chamber against the relief opening of the other separator chamber and closes this off so that the escaping gases only enter the relief chimney can escape. The inventive arrangement and design of relief openings is of course not limited to switch cells of the open design, but is generally applicable, e.g. B. with encapsulated switching cells.

Further details can be seen from the drawings.

Fig. 1 shows the disconnector room as a detail of a switch cell. 1 with the disconnector is designated, with 2 the implementation to the circuit breaker room and with 3 the bushing to the busbar system. At the operating or. Inspection tour open side, the guide plates 4 are arranged and although staggered and overlapped like scales. It can be seen that the separator space towards the operator is completely closed and that the arc gases can exit diagonally upwards unhindered.

Fig. 2 shows the cover of the separator space with flaps 5, which at a short circuit that occurs.

Their position in the open position is shown in dashed lines.

Fig. 3 shows the danger zone for the operating personnel in the event of short circuits in the disconnector room, namely curve 6 shows the hazard zone when it is open Isolator room and curve 7 shows the hazard zone when the isolator room is covered. These Curves have been established through systematic experiments and show that at a cover of the separator room according to the innovation poses a direct risk to the Operating personnel is eliminated.

Fig. 4 shows the arrangement of pressure relief openings in the two Isolator rooms in an indoor switchgear cubicle with a double busbar system. on The switching cell has a relief chimney 8 into which the relief openings 9 and 10 of the two disconnector rooms and that of the circuit breaker room 11 open out, where the latter is formed by the rear walls of the two separator spaces. To the A partition wall prevents the passage of arc gases into neighboring rooms 12 is provided, which covers the two openings 9 and 10 from one another.

Fig. 5 shows an arrangement in which the rear walls 13 and 14 of the separator spaces are drawn so high into the discharge chimney 8 that the two discharge openings 9 and 10 are covered against each other.

Fig. 6 shows an arrangement in which the two separator spaces one have common rear wall 15 on which a flap 16 is arranged, either one or the other opening of the separating spaces closes off and that of the exiting ones Arc gases is actuated.

Claims (10)

S c h u t z a n s p r ü c h e 1.) Switching cell of the open design, characterized in that on the control or. Disconnector compartment open on operating side Cover devices are arranged, which in the case of short circuits occurring in the disconnector room not only protect the operating personnel from the effects of the electric arc, but also ensure a pressure relief of the disconnector room .. 2.) Switching cell according to claim 1, characterized in that as covering devices Guide plates are used, which are arranged so that the hot arc gases exit upwards. 3.) Switching cell according to claim 1 and 2, characterized in that the guide plates are staggered and overlap in such a way that in the direction of the operating personnel a closed cover of the disconnector room is created. 4.) Switching cell according to claim 1 to 3, characterized in that Instead of guide plates, flaps are used, which are opened by the pressure effect The opening angle determines the exit direction of the arc gases. 5.) Switching cell according to claim 1 to 4, characterized in that the guide plates or flaps are made of transparent material or have an insert made of transparent material. 6.) Switching cell according to claim 1 to 5, characterized in that the cover of the disconnector room by a combination of circuit boards and Flaps takes place. 7.) switching cells according to claim 1 to 6, characterized in that the disconnector compartment has a pressure relief opening at the rear, which opens into the relief chimney of the switchgear cubicle. 8.) Switching cell with double busbar system according to claim 1 to 7, characterized in that a partition is provided in the relief chimney, the one between the opposite relief openings of the two disconnector rooms is arranged. 9.) switchgear cell with double busbar system according to claim 1 to 7, characterized in that the rear walls of the two disconnector rooms are so high are drawn that they are the relief openings of the two disconnector rooms against each other cover. 10.) Switching cell with double busbar system according to claim 1 to 7, characterized in that on the rear wall common to both disconnector rooms a pressure flap is arranged on the rear wall, which in the event of an arc the one circuit breaker room by the gases flowing into the relief chimney the relief opening of the other disconnector compartment is opened.