DE2112224C3 - Explosion-proof housing - Google Patents

Description

The invention relates to an explosion-proof, pressure-resistant housing for electrical equipment, consisting of a lower housing part and one in this with the formation of a z / ind Durchschlagsiehercn Gap engaging cylindrical fitting part of a cover,

The Schulzart "flameproof enclosure d" is very common for explosion-proof enclosures. In Such housings can not be explosion-proof devices or general equipment for installation come. The protection principle is based on securing or encapsulating the ignition source against the das Housing surrounding explosive gas mixture. A built-in that generates heat or creates sparks The device is surrounded by a non-airtight enclosure, which prevents the penetration of an explosive gas mixture and allows its ignition inside. Those present between the individual parts of the housing However, the gap widths are so narrow and of such a length that those occurring in the event of an internal ignition Flames in the gap are cooled so that they can no longer hit the outside. Also has to go through Appropriate measures can be taken to prevent ignition particles from leaving the housing through the gap can.

Gap widths and lengths are depending on the explosion or pressure effect of the potentially explosive Gases and gas mixtures occurring in rooms. For the highest explosion class In addition, flat sealing surfaces are no longer sufficient, but the parts of a pressure-resistant one Encapsulation must interlock cylindrically.

In the case of such an explosion, considerable pressures occur in the interior of the housing, which correspond to the volume of the housing rise. They must be absorbed by the housing and cover and the connecting screws will.

In the case of smaller fits with diameters up to approx. 30 mm, compliance with the prescribed Gap widths required tight tolerances in production are not too large Trouble. Also here are through the occurring

ίο Compressive stresses nor the gap width significantly influencing deformations present. If the dimensions are larger, however, must be added such difficulties can be expected.

Attempts have been made to address these difficulties in a number of ways, and above all with correspondingly thick walls or ribbed housings. But these measures lead too much heavy and expensive housings. But there are also versions known in which one at a time of the two interlocking fitting parts a deformation in the sense of a reduction in the gap allows. However, this method has the disadvantage that this deformable part is relatively thin-walled must be carried out. This, however, makes the processing

Z5 development unreasonably difficult and therefore more expensive and the possibility of measurement and thus compliance with the required fit are largely questioned.

Another way to avoid deformation / u b / w. to be restricted to a permissible level consists in making the bottom part of the lid spherical. But reasons of economic viability speak here and the space required by the external dimensions. When the inner space In addition, due to this shape, it cannot be used by built-in devices an increase in pressure in the event of an internal explosion by increasing the volume. One is therefore often forced to run bottoms of such end covers only slightly arched. Likewise, one is out For reasons of simple attachment of the cover to the housing, the cylindrical part of the To lay the cover inside the housing. Now such a cover would with the explosion pressure loaded, the bottom part of the lid bends outward and presses as a result of a leverage effect cylindrical parlie of fit in the sense of an inward enlargement of the gap.

In a cylinder cover of engines and machines (DE-PS 12 84 763) it is also known that

(To replace the transition material ¹ from the so-called cylinder attachment to the cover part over the entire cross-section with a tougher and / or more corrosion-resistant welding material. Accordingly, the welding material forming the insert should in particular be a high-alloy metal that increases the strength and resistance as well as especially the notched impact strength in the transition area between the cylinder attachment and the cover part in such a way that the alternating stresses that occur can be absorbed even over long periods of operation can.

The escape of ignition particles arising from an explosion occurring in the housing has been known to date through various inserts on the sealing gap, such. B. by spring-loaded sealing lips, also by notches

or trying to prevent mazes.

The invention is based on the object of providing a pressure-resistant two-way or two-way system that is safe against ignition breakdown To create multi-part housing for electrical equipment, in which the disadvantages outlined by The use of simple processing techniques can be circumvented.

This is characterized according to the invention that the lid with its bottom part under the Explosion pressure is elastically deformable and at the transition from the cylindrical fitting part to the bottom part has an elastic zone.

This ensures that the in the bottom section of the lid occurring deformation does not affect the cylindrical fit-bearing and therefore substantially rigid part is transferred. It can thus reduce the wall thickness of the floor section so far that no permanent deformation occurs due to the explosion pressure. The cylindrical one The fitting part then only experiences a slight outward deformation in the sense of a desired one Reduction of the gap, which, however, becomes elastic again after an internal explosion has subsided Initial state goes back. This is for the maintenance of a minimum gap size as used for the purpose easy assembly and disassembly of the cover is important.

In the case of one-piece lids, the elastic zone is created by attaching at least one ring groove educated. If one uses the fact of the presence of an outwardly attached annular groove in such a way that one this forms so that it the straight gap area of the cylindrical fitting piece by an approximately occurring Ignition particles returning curve continues, so are outward-striving ignition particles in their Flight deflected in such a way that they strive back into the housing or at least from the outside leading Planspall are distracted.

In the case of a two-sided design of the lid, in which the bottom part and the cylindrical fitting part of the cover, for example for reasons of material, are separate parts that are welded together are connected to one another, the elastic zone is preferably in the area of the weld seam.

Due to this measure, a cover for a pressure-resistant housing can be made much lighter and more space-saving, as well as being built in a more pleasing shape. In addition, through that associated reduction in the internal volume, possibly a reduction in the explosion pressure he / iels.

In the drawing each show in schematic Depiction:

Fig. 1 shows a known housing in section, illustrating the effects of an internal Explosion and

F i g. 2 shows a housing according to the invention in section

The cover labeled 1 richly with its cylindrical fitting part 11 in the housing part 2, whereby the gap width and length formed thereby correspond to the VDE -'- regulation. The lid is by means of the Special locking screws 3 attached to the lower housing part 2. With one inside the case occurring explosion bends the lid base, like indicated by the dashed lines, through to the outside and the resulting levering effect triggers a Deformation on the cylindrical fitting part 11, the. as shown, leads to an impermissible widening of the gap.

F i g. 2 shows one each at the transition from the cylindrical fitting part 11 of the cover 1 to the bottom part from the outside and inside pierced annular groove 13 and 12, respectively, whereby between these two parts of the lid an elastic zone 14 is created. An explosion occurring inside the housing also leads here, as indicated by dashed lines, to a deformation of the lid base, but this can be caused by the elastic zone 14 is not transferred to the cylindrical fitting part 11.

In order to safely switch off the escape of ignition particles from the housing without additional effort, the outer annular groove 13 is designed so that it the straight gap surface of the cylindrical fitting part 11 continues through a curve. Incoming ignition particles are thus directed towards the interior of the housing diverted.

1 sheet of drawings

Claims (4)

Patent claims: 1. Explosion-proof, pressure-proof housing for electrical equipment, consisting of a Housing sub-parts and one in this un'er training a flameproof gap engaging cylindrical fitting part of a cover, characterized in that the cover (1) with its bottom part under the explosion pressure is elastically deformable and at the transition from the cylindrical fitting part (11) to the bottom part has an elastic zone (14). 2. Explosion-proof pressure-resistant housing according to claim 1, characterized in that the Lid (1) is designed as a single piece and the elastic zone (14) is formed by at least one annular groove (12,13) is formed. 3. Explosionsgeschülztes pressure-resistant housing according to claim 2, characterized in that the Annular groove (13) is arranged on the outside and designed so that it the straight gap surface of the cylindrical Fitting part (11) continues through a curve leading back any ignition particles. 4. F. explosion-proof pressure-resistant housing according to claim 1, characterized in that the Bottom part and the cylindrical fitting part (11) of the lid (1) are separate parts, which are through a Weld seam are connected to one another and that the elastic zone (14) in the area of the weld seam lies.