EP2145366A1

EP2145366A1 - Bulkhead device for a power distribution unit

Info

Publication number: EP2145366A1
Application number: EP08736534A
Authority: EP
Inventors: Volker Haas
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2007-05-07
Filing date: 2008-04-24
Publication date: 2010-01-20
Also published as: WO2008135399A1; RU2009145102A; RU2468482C2; DE102007022371A1

Abstract

The invention relates to a bulkhead device (22; 45) for a power distribution unit (17), having a bulkhead means for depositing a vertical cladding part (18; 19) of the power distribution unit equipped with ventilation openings (20), particularly a control panel door, wherein the bulkhead means is configured such that it ensures air flow through the ventilation openings (20) into the interior of the power distribution unit, or from the interior of the power distribution unit, under normal operating conditions, and covers the ventilation openings (20) in case of failure under the influence of a blast wave such that the blast wave and hot gases are significantly reduced and directed to the outside. In order to increase the stability of the bulkhead device to withstand mechanical damage, at least one pivot-mounted bulkhead baffle (25; 49) is provided as the bulkhead means between the side bulkheads (23, 24; 47, 48), the baffle being in an inclined position under normal operating conditions due to the dead weight thereof, and being transferable into a vertical position under the influence of the blast wave.

Description

description

Schott device for a power distribution unit

The invention relates to a bulkhead device for a power distribution unit.

The fault caused by short circuit in power distribution units in the form of low-voltage switchgear usually leads to arc fault. When testing low-voltage switchgear under arc conditions the risk is estimated that people in case of arcs out ^¬ puts his can.

One criterion for personal safety is that ioni ^¬ catalyzed gases outside the low-voltage switchgear do no harm. In the arc fault test, it is proven that vertically mounted indicators (where most of the operator to be protected is usually located) do not ignite behind or next to the low-voltage switchgear.

Ventilated low-voltage switchgear units have ventilation openings in vertical enclosure parts, which serve to ventilate the system. Without an additional measure pass through these vents - in particular through any ventilation ^¬ calculations of doors at the front - in case of arcs hot ionized gases and can cause personal injury.

Therefore, devices are necessary to prevent the escape of gases in the event of arcing fault, but ensure under normal operating conditions of the power distribution unit a suffi ^¬ cally strong air flow through the ventilation openings for cooling the power distribution unit. A suitable device is known for example from the document DD 280 638 Al. This shows a Schott ^¬ device for a power distribution unit, with bulkhead means for depositing a provided with ventilation Umhül- ment part of the power distribution unit, in particular a

Compartment door. The bulkhead means are designed such that under normal operating conditions they ensure an air flow through the ventilation openings into the interior of the power distribution unit or from the interior of the power distribution unit and in the event of a malfunction under the influence of a pressure wave cover the ventilation openings such that the pressure wave and hot Gases are greatly reduced to the outside gelei ^¬ tet. - The Schott agents are designed as Metallsiebgewe ^¬ be.

The object of the invention is to further develop a Schott device having the features of the preamble of claim 1 dahinge ^¬ Given that it is more resistant to mechanical damage.

This output is achieved according to the invention in that as Schott means at least one partition between pivotally mounted partition plate is provided that is held under normal operating conditions due to its own weight in an inclined position and that under the influence of the pressure wave in a vertical position can be transferred.

By the simultaneous use of side bulkheads and ei ^¬ nem pivotable between the partition plate Schottvor- direction as a whole to mechanical force effects resistant than the known metal gauze. The side bulkheads advantageously prevent an uncontrolled air flow over the otherwise open end faces. Since the side bulkhead over the bulkhead plate from both ends over covering its entire pivoting range, they act to spread the resulting pressure wave between the inside of the casing part and the partition plate itself - ie a propagation of Duckwelle in the direction of the oblique position of the partition plate.

Furthermore, a partition plate above the covering over its entire pivoting range deck Schott and the partition plate below covering over its entire swing range may be pre-ground Schott see ^¬ additionally for the same reasons.

The cover bulkhead and also the bottom bulkhead can be fastened to the side bulkhead in a simple manner in order to pre-assemble the bulkhead device and thus to be able to keep the installation effort as low as possible when retrofitting on site.

In order to reliably prevent the baffle plate from rebounding in the event of a fault, the side bulkheads have latching means for latching the partition plate in its vertical position, wherein the

Partition plate is back to its inclined position (initial position) to ^¬ recoverable.

In order to prevent deformation of the side bulkhead and thus jamming of the bulkhead plate, in a preferred embodiment of the invention, at least one transverse strut for stiffening the bulkhead device is provided between the side bulkheads.

As a pivot axis of the partition plate serve pivot pin which engage in bearing openings of the side bulkhead.

To na ^¬ hezu completely close the vents on the wrapping member in case of failure, it is advantageous if the Partition plate has a bent second edge portion which is supportable in the vertical position of the bulkhead device on an inner side of the wrapping part.

In order to fix the side bulkhead in a simple manner to the wrapping part, they each have at least one first - supported on the wrapping part - fold.

To further increase the stability of the new Schottvorrich- processing it is advantageous if the side of the bulkhead to each ^¬ least comprise at least one further bevel for fastening the bottom bulkheads and / or one transverse strut and / or of the cover bulkhead.

The new bulkhead device can be used in particular in Stromvertei ^¬ lereinheiten in the form of panels of a low-voltage switchgear having the front side provided with ventilation ^¬ openings switch panel door to avoid personal injury in case of failure in front of the panels.

In the case of cramped space conditions in the panels, it is advantageous if in the panels a deflector o- is arranged above the bulkhead device that engages over the interior of the power distribution unit facing side of the bulkhead device.

The invention will be explained nä ^¬ forth her for better understanding of ^¬ hand of two illustrated in the drawing, the scope of the invention not limiting embodiments. Showing:

Figure 1 is a perspective view of a Stromvertei ^¬ lereinheit in the form of a panel, with a framework and a front panel door having no vents, Figure 2 shows a power distribution unit in the form of a vented

Control panel having a socket space door provided with ventilation openings and having a cable compartment door provided with ventilation openings,

3 shows an enlarged external view of the base compartment door, FIGS. 4 to 7 show various views of a first embodiment of the bulkhead device according to the invention, which is arranged on the inside of the base compartment door shown in FIGS. 2 and 3,

Figure 8 is an enlarged external view of the cable compartment door, and Figures 9 to 12 various views of an execution form of the Schott ^¬ device according to the invention, which is arranged on the inside of the cable compartment door shown in Figures 2 and 8,

FIG. 1 shows a power distributor unit 1 in the form of a switching field of a low-voltage switchgear known in the power distribution technology as a point distributor. The

Panel 1 has a backbone and a formed from different order ^¬ hüllungsteilen envelope for the frame.

The framework comprises two side walls 6, 7 and a panel door 8, which is pivotably held on the side wall and has no

Has ventilation openings. Further cladding parts are seen before ^¬ , but not shown. The two side walls 6, 7 are connected by profiles 2-5.

The side walls 6 and 7 have folds 9 to 12 and 13 to 16, which serve to secure the envelope parts.

FIG. 2 shows a ventilated power distribution unit 17 in the form of the switching field, which is similar to that shown in FIG Button a scaffold and an enclosure for the scaffold on ^¬ points. The enclosure here includes, inter alia, a front base compartment door 18 and a front cable compartment door 19, both of which are provided with ventilation openings 20 for ventilating and cooling the control panel.

According to the figure 3, showing the inside 21 of the base chamber door 18, the base chamber door is provided with three rows of ventilation openings 20 ^¬ 18th

According to FIGS. 4 to 7, a first embodiment 22 of the bulkhead device according to the invention is arranged on this inner side 21 of the base space door 18, in the region of the ventilation openings 20.

This first embodiment 22 of the new bulkhead device, which is very well suited, in particular, for flat doors, has for closing the ventilation openings 20 in the arc fault case between two side bulkheads 23, 24 pivotally mounted partition plate 25.

The partition plate 25 is guided to the right and left in the side bulkheads 23, 24. The two side bulkheads 23, 24 are connected to one another by transverse reinforcements in the form of a transverse strut 26 in order to prevent deformation of the side bulkheads 23, 24 and thus jamming of the bulkhead plate 25.

The pivot point is formed on both sides by inserting pivot pin 27 of the bulkhead plate 25 into bearing openings 28 of the two side bulkheads 23, 24.

In the open state, the partition plate is held by its own weight in an inclined position (starting position) according to FIGS. 4 and 5. In the case of an arc fault, the bulkhead plate 25 is struck by the ent ^¬ standing pressure wave (see Figures 6 and 7). In this case, two locking means 29 are pressed in the form of spring plates for locking the partition plate 25 in its vertical position of the partition plate 25 to the side. These springs immediately to ih ^¬ re original position and prevent the bulkhead ^¬ sheet 25 is opened again.

To ensure the function of the partition plate 25 must be prevented that the pressure wave between the base ^¬ door 18 and the partition plate 25 can spread.

Since the space above the partition plate by a shelf 30 cf. 7) of an overlying functional space is limited, in the area above the partition plate 25 on the underside of the shelf a cover bulkhead 31 (deflector) attached, which overlaps the interior of the power distribution unit facing side of the bulkhead device 22.

Furthermore, the area under the bulkhead plate 25 between the two side bulkheads 23, 24 by means of a bottom bulkhead 32, which covers the partition plate 25 below over its entire pivoting range, closed.

The pressure wave of the fault arc can thus only act frontally on the partition plate 25.

A second embodiment 45 of the bulkhead device according to the invention is very well appro ^¬ especially for high doors.

This second embodiment 45 is according to the figures 9 to 14 in the switching field shown in Figure 2 on the inside 46 of the cable compartment door 19, arranged in the region of the ventilation openings 20.

This second embodiment 45 of the new bulkhead device has for closing the ventilation openings 20 in the event of arcing also a between two side bulkhead 47, 48 pivotally mounted partition plate 49.

The partition plate 49 is guided right and left in the side bulkhead 47, 48 as in the first embodiment 22. The two side bulkheads 47, 48 are connected to each other in the same way by a transverse reinforcement in the form of a transverse strut 50 in order to prevent deformation of the side bulkheads 47, 48 and thus jamming of the bulkhead plate 49.

The pivot point is in turn formed by inserting pivot pin 51 of the partition plate 25 in bearing openings 52 of the two side walls 47, 48 (see Figure 12).

In the opened state, the partition plate 49 is held by its own weight in an oblique position (starting position) (compare FIGS.

In the case of an arc fault, the partition plate 49 is slammed by the resulting pressure wave (see FIGS. 13 and 14).

In this case, two locking means 53 in the form of Federble ^¬ Chen for locking the partition plate 49 in its Vertikalla ^¬ ge of the partition plate 49 are pushed to the side again. These immediately spring back to their original position and prevent the partition plate 49 is opened again.

In order to ensure the function of the partition plate 49, it must also be prevented here that the pressure wave can propagate between the cable compartment door 19 and the partition plate 49. For this purpose, in this second embodiment 45 of the new bulkhead device, in addition to the bottom bulkhead 54, a cover bulkhead 55 is provided which covers the bulkhead sheet 49 above it over its entire pivoting range.

The ventilation of the panel of the low-voltage switchgear takes place here via cut-outs 56 in the partition plate 49. In order to completely cover the ventilation openings 20 in the cable compartment door when closing the partition plate 49, this is

Running partition plate 49 upwards accordingly so long, that is, provided with the cutouts 56 area of the partition plate 49 in the vertical position of the bulkhead plate ^¬ upper half of the ventilation openings 20th

Thus, in this second embodiment 45 of the new bulkhead device, the pressure wave is directed frontally on the partition plate 49.

In both embodiments 22, 45 serves as a pivot axis of the partition plate a bent first edge portion 33; 57 of the partition plate 25; 49, with the pivot pin 28; 51 is provided in the bearing openings 28; 52 of the side bulkheads 23, 24; 47, 48 intervene. The partition plate 25 of the first embodiment 22 of the new bulkhead device further has a bent second edge portion 34 which is supported in the vertical position of the partition plate 25 on the Innensei ^¬ te the socket space door 18.

Both embodiments further comprise between the side bulkheads 23, 24; 47, 48, the cross struts 26; 50 for stiffening the respective bulkhead device. The side bulkheads 23, 24; 47, 48 have Befestigungsöff ^¬ openings 36; 58 provided first folds 37; 59 on by means of which they on the inner sides 21; 46 of the respective door 18; 19 supported and via first fastening means 38; 60 are attached in the form of screw.

Also with mounting holes 39, 40; 61, 62 provided further folds 41, 42; 63 64 of the side bulkheads 47, 48 serve to secure the cover bulkhead 55, the bottom bulkhead 32; 54 and the cross struts 26; 50 and are for this purpose of weite ^¬ ren fastening means 43, 44; 65, 66 penetrated.

By using the Schott devices 22; 45, the switching field of a low-voltage switchgear shown in FIG. 2 can be designed to be ventilated.

An additional expenditure on copper and devices is not necessary in comparison to an unventilated system.

In the event of arcing, the ventilation openings 20 are securely closed. Person safety is guaranteed. Ioni ^¬ catalyzed gases can not escape to the outside. The function of the new bulkhead devices 22, 45 was verified by an internal arc test in accordance with IEC 61641.

Claims

claims

A bulkhead device (22; 45) for a power distribution unit (17), comprising bulkhead means for depositing a cover member (18; 19) of the power distribution unit, in particular a panel door, provided with ventilation openings (20), the bulkhead means being designed to be under normal conditions Operating conditions an air flow through the ventilation openings (20) into the interior of the

Ensure power distribution unit or from the interior of the power distributing unit and cover ^¬ in case of malfunction under the influence of a pressure wave the ventilation openings (20), in particular so that no ionized gases are passed to the outside, characterized in that as Schott means comprise at least one (between side bulkheads 23, 24; 47 , 48) pivotally held partition plate (25; 49) is provided, which is held under normal operating conditions due to its own weight in an inclined position, and that under the influence of the pressure wave in a vertical position can be transferred.

2. bulkhead device (22; 45) according to claim 1, characterized in that in addition a cover bulkhead (31, 55) is provided wel ^¬ ches the partition plate (49) covers above over its entire pivoting range.

3. bulkhead device (45) according to claim 2, characterized in that the cover bulkhead (55) on the side bulkhead (47, 48) is fastened ^¬ tigt.

4. A bulkhead device (22; 45) according to one of claims 1 to 3, in which a bottom bulkhead (32; 54) is additionally provided, which supports the bulkhead plate (25; 49) below over its entire length

Swivel range covers.

5. The bulkhead device (22; 45) according to claim 4, wherein the bottom bulkhead (32; 54) is attached to the side bulkhead (23, 24; 47, 48).

6. bulkhead device (22; 45) according to one of claims 1 to 5, characterized in that the side bulkheads (23, 24; 47, 48) latching means (29; 53) for latching the partition plate (25; 49) in its vertical position, wherein the partition plate (25; 49) as ^{¬ is} zurückstellbar in its inclined position.

7. bulkhead device (22; 45) according to claim 1 to 6, characterized in that between the side bulkhead (23, 24; 47, 48) at least one transverse strut (26; 55) for stiffening the Schottvor- direction (22; 45) is provided ,

8. bulkhead device (22; 45) according to one of claims 1 to 7, characterized in that as pivot axis on the partition plate (25; 49) arranged pivot pins (27; 51) are used, which engage in bearing openings (28; 52) of the side bulkhead.

9. bulkhead device (22) according to any one of claims 1 to 8, d a d u c h e c e n e c i n e t, s a the partition plate (25) has a bent second edge portion (34) in the vertical position of

Schott device (22) on an inner side (21) of the wrapping part (18) can be supported

10. bulkhead device (22; 45) according to one of claims 1 to 9, characterized in that the side bulkheads (23, 24; 47, 48) each have at least ei ^¬ ne first fold (37; 59) for attaching the side bulkhead to the wrapping part ( 18, 19).

11. partition device (22; 45) according to one of claims 2 to 10, characterized in that the side bulkhead (23, 24; 47, 48) each at least one ne further fold (41, 42; 63, 64, 63) for fastening of the bottom bulkhead (32; 54) and / or the at least one cross strut (26; 55) and / or the bulkhead deck (55) have ^¬.

12. Power distribution unit (17), in particular switching field, with a ventilation openings (20) provided with sheathing part (18; 19), in particular a control panel door, and with a on an inner side (21; 46) of the sheath ^¬ part (18; 19) arranged A bulkhead device (22; 45), characterized in that the bulkhead device (22; 45) according to any one of claims 1 to 11 is formed.

13, power distribution unit (17) according to claim 12, characterized in that a cover bulkhead (31) above the bulkhead device (22] is arranged, which overlaps the interior of the Stromvertei ^¬ lereinheit (17) facing side of the bulkhead device (22).