DE2508605B2 - Cover device for an explosion pressure discharge opening of an interior - Google Patents

Description

The invention relates to a cover device for an explosion pressure discharge opening in an interior space with a cover, the edge of which is detachably attached to a circumferential support of the discharge opening. Such covering devices are used in particular in those building structures in which explosive substances are produced.

Simultaneously with the occurrence of an explosion inside the building, there is a large pressure difference or creates shock waves, the energy of which can damage a conventional structure. To prevent such damage, the shock wave energy must be dissipated immediately. This requires that the Cover is large enough to allow significant energy dissipation and that it is on the Pressure difference responds sensitively enough to be released immediately when the shock wave occurs.

In accordance with legal requirements, constructions must be designed in which there is a risk of explosion have cover devices that can be used at low pressures, preferably less than 171 mm water column, to solve. The loosening should take place without creating secondary damage or hazard. The covering device should also withstand the normal ambient pressure differences caused by wind and the like. These normal pressure differences are with z. B. 49-195 mm WS, however, in the printing area which exceeds the permissible explosion pressure as specified. The triggering at such low explosion pressures is an essential requirement by insurance companies and building authorities this type is fixed. In contrast, the covering device should only be used at these low pressures then triggered when the pressure difference is due to an explosion and not to another external one Circumstances receding

A known device of the type mentioned at the beginning (US-PS 31 50 749) not invoice. The cover is held there by an elastic edge clamp.

id The latter is not able to distinguish between loads that result from an explosion pressure and those that to differentiate based on external circumstances, for example due to wind influences. A secure hold of the Cover therefore means that the explosion

H pressure to trigger the cover device accordingly must be high. The area of the cover is also limited so that it can be used for rapid pressure relief if necessary, several covering devices must be provided.

The invention is based on the object of providing a covering device of the type mentioned at the beginning create that, even with a large discharge opening and secure mounting of the cover, a detachment of the guarantee the latter even at low explosion pressure

r> does.

To solve this problem, the covering device according to the invention is characterized in that Head bolts through aligned holes with their axes parallel to the direction of force of the explosion pressure

jo rather in the cover and in the support edge of the Discharge opening are passed through with play.

Although it is known (DE-OS 22 42 564) to pass bolts through holes in the cover with play, however, there is only one

i ¹ ) tension-free mounting of the cover, without the explosion protection playing a role.

In the cover device according to the invention, however, optimal protection is achieved because the Explosive pressure essentially only needs to lift the weight of the cover. Still, one is very good protection against environmental influences, for example against wind loads. External forces namely attack, based on the direction of force of the explosion pressure, asymmetrically on the cover.

4 ^r > This causes the head bolts, which are loosely inserted into the holes, to tilt, both against the support edge and against the cover. This tilt results in a lock that prevents the cover from being lifted off. Encumbrances

V) genes that generate forces at an angle to the direction of force of the explosion pressure result not only from the wind, but also from attempts to lift the cover on one side, for example in the event of a break-in. The same applies if the cover is on a

^r ) ^r i inclined or vertical wall is arranged. In all cases, the function of the covering device is not influenced by the size of the discharge opening. The latter can therefore be adapted to any application.

W) Another advantage that should be mentioned is that the cover is detached in a non-destructive manner. Furthermore, the Covering device of extremely simple construction and does not require any tight tolerances.

An advantageous development of the invention is

h5 says that the cover is symmetrical and that its axis of symmetry is aligned with the direction of force of the explosion pressure.
A particularly light construction results

according to the invention in that the cover consists of an attachment and stiffening elements, which are guided over the attachment and at their ends the holes for receiving the head bolts exhibit. '·

When doing the attachment as a convex, thermoplastic element with a flat circumferential flange is formed, which engages in a circumferential slot of the support edge, so one achieves a very smooth Sealing without significantly affecting the safety pressure threshold.

According to a further advantageous embodiment are on the free, protruding through the support edge Slipped on ends of the head bolt friction elements. The latter prevent unintentional removal r> or the head bolts falling out, for example during assembly, without the frictional forces suffice to make it much more difficult to remove the cover.

The invention is explained below with the aid of a 2 « preferred embodiment explained in more detail. The drawing shows in

Fig. 1 is a side view of a cover device according to the invention,

F i g. 2 is a plan view according to FIG. 1, r>

3 shows a section along the line 3-3 in FIG and

F i g. 4 shows a section along the line 4-4 in FIG. 3.

In Fig. 1, a cover 10 includes a thermoplastic attachment 12 and a plurality of stiffening elements 14 attached to such an enclosure 16 for the safety of the personnel. The stiffening elements 14 prevent the personnel from falling through a discharge opening 20, since the attachment 12 is usually not able to withstand such a load. The enclosure 16 is attached to a roof 18 or a wall of a building provided with the explosion discharge opening 20. The discharge opening 20 leads to the interior of the building from which an explosion is to take place. The attachment w 12 of the cover 10 has an edge surrounding the discharge opening 20, so that the cover 10 serves to seal the interior of the building from the external environment. The attachment 12 is preferably made of a translucent or clear material that is suitable for allowing light to pass through the discharge opening 20 into the interior of the building; .. The cover 10 also serves as an explosion vent in the event of an explosion within of a building and as a ceiling window w during normal use of the building.

According to the invention, the essential feature of the attachment 12 is that when an explosion occurs inside the building, with an explosive force being directed through the discharge opening 20, the resulting force on the attachment 12 is aligned in the direction of force 22. It is believed that the shock wave generated by the explosion is perpendicular to the roof or wall. It is essential that the direction of the w> resulting force acting on the attachment 12, which is generated by all force components of the shock wave acting on the attachment 12, runs in the same predetermined force direction 22. If the resulting force acting on the attachment due to its shape ^{runs in a direction b r} > that deviates significantly from the direction of force 22, the attachment and the associated stiffening elements remain intact and do not jump out depending on the explosive force. This is explained in the following. Although a particular shape of the attachment 12 is of no importance, it is essential that the shape is symmetrical with respect to the discharge opening 20 in such a way that all force components acting on the attachment generate a resultant push-out force in the direction of force 22.

F i g. 3 shows an enlarged partial cross-section of bezel 16 and the manner in which attachment 12 and the stiffening elements 14 are attached to the roof 18. The attachment 12 has a generally convex Part 24 which extends over the outside of the building and a planar flange 26 extending from the Outer periphery of the convex part 24 protrudes downward. The essay 12 includes in particular four im generally spherical triangular sections 28 (see FIG. 2), which are formed in the flange 26 formed Square circumference are arranged symmetrically.

The enclosure 16 includes a support 30 for attachment to the roof, an enclosure member 32 and a outer support edge 34 on. The support 30, the edging member 32 and the support rim 34 are made made of extruded aluminum and run all the way around the square circumference of the discharge opening 20. The support 30 for attachment to the roof is generally a U-profile with an upright base member 36, a horizontally arranged support leg 38 and a fastening leg 40, both of which Legs extend horizontally from base member 36.

A cross member 42 is attached in the same plane as the support leg 38. An upright wall 44 extends upwardly from one end of the cross member 42. An outwardly extending member 46 extends extends horizontally from the wall 44 parallel to the cross member 42 to the outside. Link 46 carries two elongated projections 48 which extend the entire length of the skirt 16. Extended Edges of the projections 48 support the lower surface of the flange 26. The outer bearing edge 34 has, as shown, an L-shaped cross-section with a horizontally inwardly extending leg 50 and a downwardly protruding leg 52. The leg 50 rests on a projection 54, the is in turn part of the cross member 42. A suitable fastening device, such as a variety of Screws 56, fasten the bearing edge 34 to the projection 54. The extended edge of the after outwardly extending member 46 has an upstanding wall 58 projecting therefrom, the upper edge of which serves as a support for the leg 50. The outwardly extending member 46, upright wall 58 and an elongated inwardly directed portion 60 of the leg 50 form a horizontally extending one Slot 63 for receiving the flange 26. It can be seen that the skirt 16 is elongated Is arrangement which extends around the entire circumference of the discharge opening 20 of FIG. 1 stretches as it best can be seen in Fig.2. The components of the enclosure 16 are suitably preformed from aluminum by well known extrusion techniques.

Appropriate insulation 62 is provided on the outer periphery of the upright base member 36. A circular hole 64 is provided in each of the four corners of bezel 16 in leg 50. the The enclosure 16 and the discharge opening 20 in the roof 18 are preferably radially symmetrical, approximately square, triangular, a regular polygon, or circular.

The convex part 24 of the attachment 12 extends

from the enclosure 16 in the direction of force 22, see FIG. 1. On the outside of the attachment 12 are the two crossed stiffening elements 14 attached. The latter are preferably made of extruded Tubes whose ends 66 are flattened so that they rest on the exposed surface of the leg 50 of the Support edge 34 rest. A hole 68 is formed in each end 66. The holes 64 and 68 are axial aligned circular openings of approximately the same diameter. In each hole 64 and 68 are corresponding head bolts 70 are arranged, each of which has an enlarged head 72 and a cylindrical Has shaft 74. The diameter of the shaft 74 is smaller than the diameter of the holes 64 and 68. The result is that a head bolt 70 extending through holes 64 and 68 is loosely in those holes is arranged. The free ends of the head bolts 70 can preferably be lower in friction elements 76 Friction made of rubber can be arranged to prevent premature loosening during transport or during installation impede. The head 72 supports the head bolt 70 at the end 66 of the stiffening elements 14. In every hole 64 and 68 at each end 66 of the stiffening elements 14 a head bolt 70 is arranged. Consequently reside four head bolts in the cover 10 according to FIG. 2.

The aligned holes 64 and 68 at each corner of the cover 10 are aligned parallel to others Holes in other corners of the cover. Hence the longitudinal or major axes are the Head bolt 70 during installation according to FIG. 3 parallel to each other. Furthermore, the parallel axes are the Head bolt 70 also parallel to the direction of force 22 of the resulting force exerted on the attachment 12 in the Case of the occurrence of an explosion in the interior of the building. As stated above, the annular Friction elements are arranged on the extended ends of the shafts 74 of the head bolts 70, the hold the latter slightly against the border 16.

The stiffening elements 14 are preferably arranged in channels 80 of the attachment 12, see FIG. 4. The Attachment 12 has according to the stiffening elements 14 have a plurality of diagonally extending grooves 80 which extend the length of each stiffening element 14 take up. The latter are welded in the middle of the attachment 12 or otherwise firmly connected to one another.

The elongated flange 26 and the convex portion 24 are sufficiently flexible to allow the parallel to the Force direction 22 extending component of any outward and onto the attachment 12 exerted force a bending of the attachment and thus a bending of the flange 26 relative to the Mount 16 to allow. This bending of the flange 26 and the bending of the attachment 12 allow its displacement in the direction of force 22 in the presence of an explosive force in a cavity of the attachment 82. When the attachment 12 is moved in this direction, it curves, and the Flange part 26 bends to an extent sufficient for attachment 12 to pop out the slot 63 to allow.

From the arrangement described above, it can be seen that the above releasable fastening means the Has head bolts 70 and a reinforcement comprising the reinforcing elements 14

The head bolts 7 (D of this detachable fastening device and the stiffening elements 14 are carried by the attachment 12 when it is in the above

is arranged above the discharge opening 20 in the manner described.

If an explosion occurs in the interior of the building during operation, it is in the cavity 82 immediately an explosive force is present below the convex part 24 of the attachment 12. The symmetrical shape of the Attachment 12 concentrates the force in cavity 82 along the normal axis of symmetry of the attachment, which coincides with the direction of force 22. This force tends to make the attachment 12 by the above-described To push the curvature effect in the direction of force 22 ″.

Simultaneously with the displacement of the attachment 12, the stiffening elements are when it is pushed out 14 pressed in the direction of force 22. The upward forces are caused by the stiffening elements 14 transferred to the head bolts 70 via the heads 72. As long as the on the essay and the Stiffening elements acting force is parallel to the direction of force 22, the head bolts 70 in a directions parallel to this direction of force are applied. They will therefore be upwards out of holes 64 and 68 pushed out axially. The holding force caused by the friction elements 76 becomes sufficiently small chosen compared to the release of the attachment 12 and the stiffening elements 14 depending on a Explosion set load.

By aligning all head bolts 70 in parallel with the given direction of force 22, the attachment is released 12 and the stiffening elements 14 of the enclosure 16 only if the on the essay and the Stiffening force exerted in force direction 22 runs in any other direction Force will seek to keep the attachment stiffener structure and head studs 70 against the To clamp holes 64 and 68, which clamps the head bolts in the holes like a clutch and a Prevents the head bolts from loosening from the holes. Consequently, there becomes one between the external environment and the cavity 82 existing small pressure difference of about 24-195 mm WS the stiffening elements 14, the attachment 12 and the head bolts 70 with a force resulting in the direction of force 22 from their place remove. One from the wind, from flying debris or from an accidental lifting of the The asymmetrical force caused by the article as a function of a pressure difference is tilting the Attachment and stiffening construction opposite the enclosure 16 and a reduction in the size of the head bolts 70 cause relative to the support edge 34. Under such conditions, no deletion of the The essay take place.

Likewise, there is an asymmetrical loading force caused by the wind or by a person that tries to lift the essay from the roof at one corner, a tilting effect of the essay cause the head bolts 70 wedged in the corresponding holes of the bezel 16 and from the top 12, recessed elements 14 and head bolts 70 existing arrangement opposite the enclosure 16 locked. A suitable alarm device, not shown, can be connected to the attachment every time a part of the assembly is released from its normal position.

It should therefore be emphasized that the essay, which for transmitting light as a ceiling window on a building roof or wall is simple and suitable is easily attached to the roof by means of a variety of headed studs that strive to keep the attachment from

Roof only as a function of an explosive force occurring in a given power device to solve. It should be noted that different arrangements of symmetrical Top constructions and associated head studs 70 can be made in accordance with the present invention can. Although the flange 26 is shown fixed in the slot 63, it can be seen that the extended inwardly directed part 60 of the leg 50 does not have to extend beyond the upright wall 58, so that the flange 26 can be exposed to the environment. The extended end of the inside Directed part 60 serves more as a protection against the weather conditions of the environment than a holding device for the essay 12. The ones from the extended part

60 effected holder is of a random nature, but gives the construction an additional security against a Take off from your seat in an emergency. It also determines the depth to which the flange 26 extends into the slot 63 extends that for bending and lifting the attachment 12 required connecting forces. The greater the depth, the greater this force. Additional factors to the The connection forces are of course determined by the type and thickness of the material of the attachment 12. In a particular embodiment, the head bolts 70 can also directly on the flange 26 without the need for stiffening elements 14 be attached. In this case, the part 60 is omitted.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Covering device for an explosion pressure discharge opening an interior with a cover, the edge of which is detachable on a circumferential Support of the discharge opening attached is characterized in that head bolts (70) through aligned holes (68, 64) in the cover (10) and in the support edge (34) of the discharge opening (20) passed with play are. 2. Covering device according to claim 1, characterized in that the cover (10) is symmetrical and that its axis of symmetry is aligned with the direction of force (22) of the explosion pressure 3. Cover device according to claim 1 or 2, characterized in that the cover (10) an attachment (12) and stiffening elements (14) which are guided over the attachment (12) and at their ends (66) the holes (68) for receiving the head bolts (70). 4. Covering device according to claim 3, characterized in that the attachment (12) as a convex, thermoplastic element is formed with a flat circumferential flange (26), which in a circumferential slot (63) of the support edge (34) engages. 5. Covering device according to one of claims 1 to 4, characterized in that on the free ends of the head bolts (70) protruding through the support edge (34) friction elements (76) are attached.