NO316730B1 - Noise arc absorption device with multiple absorption elements - Google Patents

Abstract

The invention relates to an accidental arc absorber device (SA) with several absorber elements for pressure relief and heat dissipation of gases from the switchgear, particularly for medium voltage switchgear. The absorber elements are formed of identically shaped non-aligned perforated plates (LB1, 2, 3), which are laminarly arranged within the accidental arc absorber device (SA). Accidental arc absorber devices are used for pressure relief and heat dissipation in medium voltage switchgear.

Description

The invention relates to a noise arc absorption device ("Storlichbogenabsorbereinrichtung") with several absorption elements for pressure relief and heat dissipation for the gases from switchgear, especially for medium voltage switchgear.

A noise arc absorption device of this type is known from e.g. DE 42 20 790 Al. In this publication, the noise arc absorption device is placed on the back of an arc-proof designed switch cell, and it allows, in the event of noise arcs, that the resulting gases enter the noise light arc absorption device through flow openings in the switch cell. In the case of noise arcs, the hot gases are led through a channel connected to the flow opening to a discharge opening, and are thus led away from the intermediate voltage system. Inside the channel-shaped noise arc absorption device are arranged zigzag curved plates with holes, which essentially cause the hot gases to swirl, so that they can be cooled accordingly by the plates.

From DE 44 03 355 an arc absorption device is known in which several heat exchange plates are arranged inside a housing, which divides the inner space of the housing into channels which taper in the direction of flow. Between the heat-exchange plates, further so-called swirl grids are arranged, which contribute to the cooling of the hot gases in the event of a noise arc.

From DE 41 41 685 Al, it is also known that a breakthrough in the switch system is covered by several pleated, wavy or meander-shaped expanded metal grids to carry away the hot gases from the switch system and also to contribute to the cooling.

The task on which the invention is based consists in defining a noise arc absorption device which is constructively built in a simpler way and where greatly simplified elements are inserted, and with which heat exchange and also pressure relief are realized without limitations. According to the invention, this is achieved by the moves

1.1 the noise arc absorption device is equipped with identically designed, perforated plates, i.e. perforated plates,

1.2 the perforated plates are arranged in the form of slats in the noise arc absorption device,

1.3 the perforated plates are arranged in the noise arc absorption device

with their (longitudinal) direction of flow,

1.4 the perforated plates are arranged offset in the noise arc absorption device so that they alternately form, in the flow direction of the breaker gases, cavities with changing cross-sections, and that in the area for the flow of the breaker gases after the openings in the perforated plates, enlarged cross-sections always appear.

With the use of identically designed, perforated plates, which are arranged inside the noise arc absorption device in the form of lamellae so that the hot gases flowing through the openings in the perforated plates are always led into an extended cavity, a very high degree of swirling is achieved for the hot switch gases. The perforated plates lie on the side areas of the noise arc absorption device and are fixed there.

An advantageous embodiment of the invention comprises the features:

2.1 the perforated plates comprise knob-shaped, punched-out openings,

2.2 the perforated plates are arranged mutually mirror offset in the noise arc absorption device.

Due to the nub-shaped punch openings, the perforated plate as a whole has a high stability, whereby pressure deformations are avoided in the event of noise arcs.

A further advantageous embodiment of the invention comprises the features

3.1 the noise arc absorption device is equipped with identically designed perforated plates,

3.2 the perforated plates are arranged in the noise arc absorption device in the form of slats,

3.3 the perforated plates are arranged offset in the noise arc absorption device so that they alternate in the direction of flow of the breaker gases to form cavities with changing cross-sections, and that in the area for the flow of breaker gases from the opening in the perforated plates a cross-sectional expansion is always provided,

3.4 the perforated plates are realized as guide plates arranged offset by approximately half a right angle in relation to the flow direction of the breaker gases, and that each is fixed on alternating sides in the limiting area of the noise arc absorption device,

3.5 the conductor plates are arranged offset from each other at approximately right angles.

The guide plates which are offset on one side in the noise arc absorption device and which form a half right angle to the flow of the gases, and are arranged approximately at right angles to each other and with their free ends spaced apart, provide a very high degree of swirl and thereby increase the degree of cooling of the hot gases.

The invention is to be explained in more detail with the help of three design examples shown in figures 1 to 3, where the noise arc absorption device is produced as a flow channel seen in cross-section. Figure 1 shows the noise arc absorption device SA, where three perforated plates LB1, LB2, LB3 are arranged in the inner space. The perforated plates LB1, LB2 and LB3 are roof-shaped curved and each of them has in the middle area to the pitch or the sinking did not show holes, through which the hot gases on their passage are whirled up. In this noise arc absorption device SA, the perforated plates LB1, LB2 and LB3 are arranged offset so that the cavity in the area for the flow through of the switching gases from the openings in the perforated plates is expanded. With this expansion of the cavity, strong vortices occur for the switch gases, so that these in the corresponding perforated plates LB1, LB2 and LB3 can be cooled accordingly. At the same time as the cooling, the flow rate of the gases will also be reduced so that the discharge of the gases out of the switch system takes place without danger. Figure 2 shows a noise arc absorption device in which the absorption elements are designed as perforated plates LB1, LB2 and LB3 with knob-shaped punch openings (not shown). The perforated plates LB1, LB2, LB3 are here arranged mirror-symmetrically inside the noise arc absorption device SA so that the gases here too form cavities with changing volume in the direction of flow. With this design of the noise arc absorption device SA, a very strong swirling of the hot gases is also achieved, whereby the pressure in the outflow area of the noise arc absorption device also builds up to permissible values. The nub-shaped perforated plates LB1, LB2 and LB3 are in themselves very stable, so that pressure deformation of the plates is prevented in the event of a greater pressure load. Figure 3 shows a noise arc absorption device SA, which in the area of the outer boundaries is equipped with guide plates BLI, BL3, BL3 which are curved towards the flow direction at approximately half right angles. The guide plates BLI, BL2 and BL3 are each attached alternately to the outer area of the noise arc absorption device. The guide plates BLI, BL2 and BL3 are arranged at right angles to each other, so that their free ends form a slit opening, not shown in more detail, through which the inflowing gases are also swirled up.

The guide plates which are offset on one side inside the noise arc absorption device and which lie at half right angles to the flow of the gases, which are arranged approximately at right angles to each other and with their free change in distance from each other, provide a very high degree of swirl and thereby increase the degree of cooling of the hot gases.

Claims (3)

1. Noise arc absorption device with several absorption elements for pressure relief and heat dissipation for switch gases, especially for medium voltage switchgear, characterized by the traits 1.1 the noise arc absorption device (SA) is equipped with identically designed perforated plates (LBl,2,n), 1.2 the perforated plates (LBl,2,n) are arranged in the form of slats in the noise light-arc absorption device (SA), 1.3 the perforated plates are (LB 1,2,n) arranged in the noise arc absorption device (SA) with their longitudinal direction in the direction of flow, 1.4 the perforated plates (LBl,2,n) are arranged offset in the noise arc absorption device (SA) so that they alternately form, in the direction of flow for the breaker's gases, cavities with changing cross-sections, and that in the area for the flow of the breaker gases after the openings in the perforated plates, enlarged cross-sections always appear. 2. Noise arc absorption device according to claim 1, characterized by the features 2.1 the perforated plates (LBl,2,n) comprise knob-shaped, unpunched openings, 2.2 the perforated plates (LBl,2,n) are arranged mutually mirror offset in the noise arc absorption device (SA). 3. Noise arc absorption device with several absorption elements for pressure relief and heat removal of switch gases, especially for medium voltage switch systems, characterized by the features 3.1 the noise arc absorption device (SA) is equipped with identically designed perforated plates (LBl,2,n), 3.2 the perforated plates (LBl,2,n) are arranged in the noise arc absorption device (SA) in the form of lamellae, 3.3 the perforated plates (LB) are arranged offset in the noise arc absorption device (SA) so that they alternately form cavities with changing cross-sections in the flow direction of the switching gases, and that in the area for the flow of switching gases from the opening in the perforated plates (LBl,2 ,n) a cross-sectional expansion is always provided, 3.4 the perforated plates are realized as guide plates (BLl,2,n) arranged offset by approximately half a right angle in the flow direction of the switch gases, and that each of them is fixed on alternating sides in the limiting area of the noise arc absorption device (SA), 3.5 the conductor plates (BL) are arranged offset from each other at approximately right angles.