DE2365200A1 - COMPONENT, PREFERABLY MADE OF METAL OR PLASTIC, IN PARTICULAR STRUCTURAL ELEMENT FOR BUILDING, SUPPORTING, BRIDGES, VEHICLES - Google Patents

Description

. Otto Becker December 29, 1973

Saarbrücken
Robert-Koch-Str. 59

Patent application

Component, preferably made of metal or plastic, in particular load-bearing component, e.g. B. for buildings, pillars, bridges, vehicles.

The subject of the invention described below is a component, preferably made of metal or plastic, in particular a load-bearing component, its application in particular to the following Areas is advantageous:

Building construction and civil engineering, vault construction, dome construction, tunnel construction, underground Systems, underwater structures, formation of supports, pillars, girders, scaffolding, masts, chimneys, also in the form of supporting pipes and as pressure pipes, also bridge construction, vehicle construction, z. B, land vehicles, sea vehicles, aircraft, spacecraft, Container construction and as load-bearing foundation training also for machines and objects as well as for supporting dams, water weirs, Breakwater and the like. The list is not exhaustive.

In the main application P 17 59 635 of May 22, 1968, a component is already described, which consists of two or more building shells, of at least one seal located between the edges of the shell and one of these hermetically sealed cavity exists, in which pressure means (z. B. honeycomb panels) with interposed solid sheets (e.g. metal sheets) and associated sealing sheets (e.g. plastic foam sheets); those with vapor-proof Foils (e.g. aluminum foils) can be coated, provided

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are movable and at least one of the building shells can be changed in position or is arranged in a flexible manner (for example concave) on the seal and at least in one cavity a vacuum or negative pressure is made.

As a result of the elimination of the air counter pressure inside the "component the external air pressure causes at least the deflection of the flexible building shells or of partial surfaces thereof and / or in particular a change in position of the building shells in the direction of one another by pressing them together by means of screws the seal and the cavity inserts. As a result of this screw pressure and atmospheric pressure, the deposits in the The cavity, in particular the honeycomb webs, are placed under tension and this force is used to press against the intermediate metal plates and the inside of the construction shells. This causes an "increased flexural strength of the inner parts supported in this way Panels and intermediate shells, as well as the outer structural shells, in case of their stress in the direction of their levels. In the case of a vacuum, this is perpendicular to the outer shells and the Honeycomb panels on the surfaces of the metal panels arranged in the cavity and other intermediate panels approx. 10 t per m

This atmospheric pressure is of a random magnitude. It is determined by the attraction of the earth's mass on the air envelope, the composition of the air as a mixed gas and the height of the atmosphere.

The object on which the present invention is based is Improvement of the various parts and arrangements that make the structural element load-bearing.

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In particular, the load-bearing capacity of the component according to the invention is determined by the stress state in which the honeycomb webs are or the like. Means are offset by other means acting on them. Such means can be inside the component be provided, or act from the outside on the various layers of the component. Inside the component There can be a negative pressure or vacuum in the individual cavities, chambers, honeycombs, cells and thus the atmospheric one External pressure, which rests on the outer shell of the component, to the effect, d, h. to generate a tension in the perpendicular on the building shell surfaces directed cavity webs, in particular honeycomb webs, are brought.

Likewise, in the interior of the component, an overpressure, be it air or a gas or a liquid or solid substances or pulpy substances that solidify to form solid substances exist, the aim of which is to press the component apart. Will this endeavor by opposing forces ,, z. B. by tensioning screws or tightening straps placed around the component or cast around the component, the pressure-absorbing masses, e.g. B. concrete, the internal overpressure has a tension-giving effect on the honeycomb webs or the like. However, these tensions only act via the webs on the lattice-like ones that are linearly touched directly by the webs Contact points of the building shells. This with concentration the tension force approximately in the ratio of these contact points of the webs to the total area of the touched building shell. For this it is necessary to give the honeycomb webs or the like. Tensioned means a correspondingly high flexural rigidity. This can be done by the strength of the respective material happen, or by a Combination of different elements, which z. B. by

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Gluing or welding are firmly connected to one another to form a unit as honeycomb webs. These honeycomb bars form the total Composite unit honeycomb panel, within which each web is secured in its position by the other webs.

To further increase the flexural strength of the honeycomb webs, the Honeycombs are filled with fillers made of metal or plastic or plastic foams or the like. The honeycomb and filler pieces can preferably have shapes that correspond to the directions of the forces acting. So z. B, right-angled fillers be used in right-angled honeycombs and with these the vertical and horizontal forces are absorbed. Particularly are hollow bodies such. B. square pipe pieces for this purpose, as they have a higher flexural strength than solid bodies.

The state of tension can also be caused by rigid borders, be it certain parts of the building element, be it the building element as a whole, be maintained and thus secured.

Instead of being rigid, the honeycomb panels can also be arranged to be movable and / or consist of flexible elastic material. This is useful to z. B. elastic the overpressure in honeycomb chambers To be able to transfer over the free area bounded by the honeycomb bars to honeycomb bars which are arranged opposite this free area.

This is discussed in detail in the following description of exemplary embodiments.

Because the evacuation of at least a part of the cavities of a component is advantageous and especially for simpler construction

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elements comes into consideration, some evacuation options are described in the following embodiments. Furthermore will refer to the older registrations, in particular to P 23 43 792. 5-16 of August 30, 1973 and P 23 62 497.7-16 of December 15, 1973.

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Figure 1 shows a vertical section through a component consisting of metal shells 3 a and 3 b and a shell 16 made of any building material, for. B. Ceramic, which at the same time the interior wall of the Ge. building forms. The building shells 3 a, 3 b enclose a total of a cavity H 1, into which further building shells 9 are introduced. Between every 2 construction shells a honeycomb panel 8 with "honeycombs 8 a and honeycomb webs 8 b made of any suitable material is arranged so that these honeycomb panels are inseparably arranged with at least one side on one of the construction shells in a composite manner, for example in a known manner by means of adhesives or adhesive plastic foams, e.g. polyurethane foam or by welding, soldering or the like To roughen up or for the same purpose, for example, to provide transverse gussets. Stiffening plates 6 are arranged in a sandwich composite manner with the interposition of a plastic layer 5. This design can also take place in multiple forms and thereby the flexural strength of the building shells 3 a and 3 b can also be increased as required it trapezoidal sheets with a vertical profile can still be combined in a composite manner, e.g. B. by gluing, welding, screwing or the like. As a result, an almost absolute rigidity of the building shell surfaces, which is required as required, can be achieved. The building shells 3 a, 3 b are folded around twice in a z-shape. Screws are inserted through previously arranged perforations through the edge parts. Arranged between the edge parts of the building shells 3 a, 3 b is a circumferential elastic seal 10 that closes off the entire cavity H 1 in an airtight manner. A further cavity H 2 is located between the building shell 3 b and the shell 16, which forms the interior wall of the room. This cavity can be provided as desired in its depth dimension. It can contain any type of support, in particular honeycomb panels, preferably made of metal,

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in particular steel, firmly adhering or welded on at least one side be arranged. The interior shell 16 can be combined with others as desired, in particular on its surface facing the cavity H 2 Building shells, z, B, made of metal, be combined in a composite manner, so that the building shell part 16 does not exercise any load-bearing function itself and therefore of fragile material, e.g. B. plaster can be, • while the metal wall arranged on its rear side this supporting » Functions »exercises« * According to the provisions for the In the event of a fire, fire-resistant materials such. B. fiberglass mats, rock wool mats, asbestos panels, asbestos cement panels, steel sheets, ceramic panels and the like. To bring incombustible materials to use. Instead of these, FIG. 1 sees many options for equipment Spacer strips 15 made of any material. The spacer bars can, for. B. in the vertical direction grooves or interruptions have to remove the air possibly located in the cavity H 2, e.g. B. over a Tube 18 a, which opens into the cavity H 2, to be able to suck off or to bring this cavity into connection with a volume equalization device, in order to reduce the external atmospheric pressure in the cavity H keep upright. Instead, an overpressure to be determined according to expediency can be produced in the cavity H 2 via the pipe 18 a will. As Figure 1 shows, there is a vertical air gap 8 s between the first honeycomb panel 8 and the intermediate shell 9, likewise between the second honeycomb panel and the intermediate shell 9 that follows it. The third honeycomb panel 8 is with the metal shell 3 b or its stiffening plate 6 rigidly connected. The required air gap exists at the intermediate shell 9. Through the circumferential seal 10 is a suction tube 18 with valve 19, for. B. inserted through a slot provided for this purpose (not shown). An air pump P serves to evacuate the air in the cavity between the building shells 3 a, 3 b and thus from all the honeycombs.

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This eliminates the atmospheric counter-pressure existing in this cavity, so that the atmospheric pressure only has an effect from outside on one side. As a result, the building shell 3 a is pressed in the direction of the stationary building shell 3 b
by being closed early.

pressed to the stationary building shell 3 b. The air gap 8 s would here-

To avoid this, the seal 10 is in its degree of hardness and its Dimension regarding the distance between the building shells so that the air gap remains open for 8 s during the evacuation, A gap width of about 1 mm is sufficient for a complete evacuation to take place.

This is possible because by choosing an appropriate hardness of the elastic seal z. B. by using hard rubber and the aforementioned distance dimensioning. the counter-tension generated in the seal 10 is sufficient to keep the building shells at the required distance from one another and thus to enable evacuation of all honeycombs via the air gap 8 s thus formed. The screws 11 are then tightened further, preferably by machine, and the very narrow air gaps are thus closed. The atmospheric pressure can then be fully transferred to the honeycomb webs of the honeycomb panels. As a result, the inner surfaces of the building shells 3 a, 3 b or the opposing composite sheets 6 and also the intermediate building shells 9 are pressed vertically by the honeycomb webs with corresponding counterpressure, thus increasing their flexural strength when absorbing load pressures. The larger the honeycomb openings or widths, the stronger the honeycomb webs have to be. On the other hand, the smaller the contact area on which the honeycomb webs touch the total building shell surfaces standing vertically. The area enclosed by a honeycomb can be kept so large that it does not have sufficient flexural strength of the honeycomb webs and the strength of the free, delimited building shell surfaces

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bulging or buckling. The static calculation carried out by a certain load to be carried or the pressure to be absorbed, is thus the strength of the building shells as load-bearing elements on the one hand and the rigid support through rigid honeycomb webs on the other hand, and the flexural strength of the free cells between the honeycomb webs corresponding to the honeycomb widths (cell widths) are not The supported surfaces of the composite shell are to be taken as a basis and the static values are to be determined for the individual factors. Even the secondary stresses are to be taken into account in a similar way to the trusses and shear forces, which could destroy the bond, to prevent. This can e.g. B. largely prevented that the honeycomb webs made of metal, z. B. steel, with the surfaces of the Composite construction shells, which are also made of steel, are welded. This results in a rigid connection. As in the Registration P 23 43 792. 5-16 described above, depending on expediency In the honeycombs, which are airtight on both sides, a vacuum or an approximately atmospheric pressure or an overpressure at any level is established or be included for an unlimited period of time. It can do the whole component formed according to this process to form a rigid composite structure be, with different binders provided depending on the type of material for the individual different layers of the component are. Plastics, e.g. B. plastic honeycomb, z. B. with plastic-coated Sheets or plates with solid plastic, for. B. welded in a known manner by means of high frequency or by gluing together be firmly connected.

In particular, it is possible to form at least two structures or as required a plurality of building shells by screws, which transversely through the construction element in any number and at any distance depending on Requirement are arranged to connect to each other with optional voltage. The individual are provided with different pressure

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Honeycomb panels through seals, which are provided for the screws, In spite of possibly extreme air pressure differences in the neighboring honeycomb panels secured against air pressure changes. The pressure of the load is taken over by all load-bearing parts of the component through counter pressure. In particular, the supportive Tension secured by the honeycomb webs 8 b standing vertically on the building shells.

If the building shells 3 a, 3 b are not rigid, it is necessary to produce one Vacuum required, by means of the screws going transversely through the component, the shell surfaces 3 a, 3 b to form the air gaps 8 s to to keep them apart to end the evacuation. For this, reference is made to the following figures.

FIG. 2 shows, in vertical section, a structural element partially of the same type as FIG. 1, but with perforations 9 a of the inner building shells 9. These perforations 9 a are in such a number and position that each honeycomb 8 a, which rests on the building shell 9, or is firmly connected to it, at least one perforation 9 a is omitted. A middle field with a narrower honeycomb plate 8 m is located between the building trays 9. An air gap 8 s is provided on each side of the building trays 9 in this field. In these air gaps 8 s is a film 7 f, z. B. made of plastic or rubber. Both the building shell 3 a, 3 b and the intermediate building shells 9 are connected to one another by a screw combination. These screws consist of two pipe screws 11 and 11 'with an internal pipe thread and are less than half the distance between the building shell edge parts. For this purpose, a screw middle part lim with an external thread, onto which the two first-mentioned pipe screws 11, 11 'can be screwed, is interposed. The two outer threaded pipe screws 11, 11 ″ wear on their

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Ends of unchangeable driver discs 11 a and 11 a 'in constant Distance to the screw heads 11, 11 '. Between the building shell edge parts and between the driver discs 11a and 11a 'are elastically compressible rubber seals 10, 10', 10 m provided. If the screws are rotated in such a way that the distance between the screw heads 11, 11 'increases, then the intermediate shells 9 of the driver discs 11 a and Ha 'also moved outwards. As a result, the mentioned air gaps 8 s can be formed in any width. Through a pipe 18 with valves 19 can be from an air pump P the air in the space between the building shells 9 and thus at the same time the air from each of the adjacent cells 8 a through the perforations 9 a to be evacuated. After completion of this evacuation, the screw heads 11, 11 'are rotated against each other that the Distance to each other reduced. As a result, the building shells 9 in Direction to each other pressed against the film 7 f and thus the perforations 9 a closed. Each individual honeycomb 8 a is thus opposite to all other honeycomb hermetically sealed. The honeycomb webs 8 b is connected to the atmospheric via the screws 11 and 11 ' Pressure issued a tension supporting the building shells 3 a, 3 b and intermediate building shells 9.

For better adhesion, the foils 7 f and / or the inside of the Construction shell 9 coated with adhesive materials before assembly and evacuation will. The foils 7 f can preferably be arranged so as to be freely stretched to their position while leaving air gaps on both sides to specify.

The honeycomb panel 8 m and the foils 7 f can be omitted if the middle one Field is provided with an airtight hose-like, preferably elastic cover over the entire height, which is provided with a piece of pipe, for. B. by the seal 10 opens outwards. Will this airtight envelope with a

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inflated overpressure, then it presses against the z. B. with a Adhesive coated inner surfaces of the building shells 9 and hermetically seals the openings 9 a. The building shells 9 are pressed against the honeycomb webs 8 b, which are thereby placed under tension. To the To secure overpressure in the long term, liquid substances such. B. with chemically binding and then solidifying substances are added to the hose with excess pressure; z. B. a pulpy one Cement mix with fine sand and other materials (lightweight concrete) as well as fibrous materials for reinforcement, especially those Mixtures that result in no or only very little shrinkage on solidification can be considered. Also water glass with admixture from others z. B, solids can be considered. The gluing of the hose to the inner surfaces of the building shells must be such that at later gluing of the hose at any point the openings 9 a remain closed and the filler (e.g. cement, concrete) the distance between the intermediate shells 9 and thus the compressive stress remain unchanged stay

If the building shells 3 a, 3 b are not rigid, it may be necessary to between the two shells 3 a, 3 b identical or similar combined Screws 11, 11 ', 11 a, 11 a', 10, 10 ', 10 m in suitable places to be arranged in sufficient numbers to keep the shell surfaces 3 a, 3 b apart. Reference is also made to FIG. 3 for this purpose.

Figure 3 shows partially the same component as Figures 1 and 2. Between the shells 3 a and 3 b are connecting screws 11 ν with driver washers 11 a "and elastic seal 10" on the inside of the shell 3 b or its composite sheet 6 arranged at a constant distance from the screw head 11 ν. A screw nut 12 ν is welded to the inside of the building shell 3 a or to its composite sheet 6, in

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Λ3

which the screw 11 ν can be screwed in more or less deeply. If the screw 11 ν is screwed in deeper, it decreases below the The effect of atmospheric pressure is the distance between the building shells 3 a and 3 b. If the screw 11 ν is partially unscrewed again, the distance between the building shells 3 a, 3 b is thus widened. The drive plate 11 a ″, which is fixedly arranged in a certain position on the screw 11 ν prevents further pushing through of the screw part 11 ν protruding into the cavity H 2 between the building shells 3 b and 3 c with the screw head Hv. Since the building shell 3 b is fixed in its position, the movable shell 3 a is partially due to this Unscrewing the screw 11 ν from the nut 12 ν shifted to the outside and thus the distance between the shells 3 a and 3 b enlarged. This makes it possible to form the required air gaps 8 s (see FIGS. 1 and 2). The evacuation of the Cavity H 1 or the honeycomb 8 a between the building shells 3 a, 3 b are completed.

Sealing washers 10 ¹⁸ and a nut 12 w ^fl are provided for this purpose, through which, in conjunction with the seals, the opening through the shell 3 b is closed airtight by tightening the screw 12 w ″. For this purpose, the screw 11 carries ν on the corresponding area of the nut 12 w "also has a thread.

Instead of the edge screws 11 shown in FIG. 3 with seal 10 the combined screws 11, 11 ', 11 m, Ha, Ha 'come into play.

The screw 11 ν can disks with additional drivers 11 a "to the Intermediate construction trays 9 are equipped «,

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Tightening the screws 11 ν not only serves to close the air gaps (8 s) and thus the airtight seal of each individual honeycomb to maintain z. B. the vacuum produced in the honeycomb, but also for additional voltage generation by means of the screws Hv, in the honeycomb webs 8 b "By tightening the screw 12 w" and that Penetration of the screw 11 ν into the nut 12 ν becomes the movable one External shell 3 a is additionally moved in the direction of the shell 3 b, so that any appropriate tension can be exerted on the honeycomb webs 8b, up to the limit value that defines the flexural strength of the honeycomb webs allows.

Depending on the requirement, the honeycomb webs are to increase their flexural strength from a suitably strong material, for example steel, of the appropriate material thickness, as well as by combination, for. B, to stiffen with filler pieces so that the respective requirements placed on their flexural strength are met _e

In contrast to FIG. 1, FIG. 3 also shows a honeycomb panel 8 'in the cavity H 2 and, subsequently, behind the inner shell 16 to stiffen it, a fixed shell 3 c _s combined with it, which can be designed like the shell 3 b, for example.

These building shells 3 b and 3 c or, 16 can with screws Hv ', IZ / be connected.

Since the two building shells 3 b and 3 c are stationary, the drivers are unnecessary. These screws 11 only have a connecting function and a tension-giving function. The voltage generating is also provided between the stationary, i.e., "h" at a certain distance invariably opposite Swinging _s of great importance. This does not matter whether there is a negative pressure or an overpressure in the space.

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So that the respective desired air or gas pressure state or a Can be produced in a vacuum, the honeycomb webs are perforated, for example, and the possibility of production through a tube opening 18 ' given the desired gas pressure state.

To avoid a relative movement (thrust) of the honeycomb panel to the The inner sides of the building shell 3b and 3c can be the honeycomb with the building shells be glued or welded in a known manner. For this purpose, reference is made in particular to the corresponding procedures in aircraft construction.

The respectively desired gas or air pressure state and the airtight seal Each individual honeycomb can also be produced in the manner described in the application P 23 62 497. without perforation of the Honeycomb needs.

In the cavity H 2, an overpressure at a predetermined level can be created in the honeycombs be brought in. If the honeycombs 8 'of the cavity H 2 are kept larger than the honeycombs 8 in the cavity Hl, then with an overpressure and with a correspondingly flexible design of the building shell 3 b that of the honeycomb webs 8 b delimited free areas of the building shell 3 b a pressure on the honeycomb webs arranged on the opposite side of this building shell exercise. This pressure is transferred to the honeycomb webs between the building shells 3 a and 3 b in the transverse direction. As a result, the building shells 3 a, 3 b and intermediate shells 9 increased rigidly supported.

As a third means of achieving increased tension in the honeycomb webs The clamping screws Hv, 12 v and the edge clamping screws are used in the cavity H 1 11, 12.

The cavity H 2 is formed in the shape of a frame by the airtight arrangement Border 1 with angle 17 even in the event of overpressure by the

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AL

Screws 11 ν 'kept unchanged in its depth. For further security to prevent the honeycomb webs 8 b 'from tearing off the inner surfaces of the building shells 3 b, 3 c and 6, the screws 11 v', 12 v ", which can be designed in various ways. These are more appropriate Way so distributed over the surface of the building shells that not only a rigid connection between the building shells is achieved is, but at the same time a predetermined state of tension of the honeycomb webs and thus a predeterminable support of the load-bearing Construction trays.

The screws can be arranged to pass through all of the cavities and all Βαμβοΐ ^ ΐβη are arranged regulating and exciting.

By means of appropriate sealants when tightening the screws are compressed, the maintenance of the pressure differences between the individual cavities or honeycombs is ensured.

As mentioned, the honeycomb widths can be different, depending on the Air pressure or vacuum that exist in the honeycomb. Large honeycomb widths enable convex bending of the free ones when there is excess pressure in the honeycomb partial areas of flexible building shells not touched by the honeycomb webs in the direction of the negative pressure honeycombs or their honeycomb webs. It is therefore expedient, the honeycomb widths of the provided with vacuum or negative pressure To keep honeycombs smaller than the counterparts on the other side of the building shell overprinted honeycombs. The smaller honeycombs result in a larger number of supporting honeycomb bars with the same area.

Of course, this component system is made up of such. materials and to be built with such dimensions as is necessary from the level of the static load or pressure. In particular, can the honeycombs made of high-quality steels and the composite shell

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at least on the sides adjacent to the steel honeycomb also with corresponding ones Be provided steel sheets and result in an extremely high overall strength by welding. The screws that go into can also be arranged according to the required number and material thickness, in particular at the points at risk of kinking an increase in voltage take place. Such a tension system in context with the different pressures in the honeycombs, the meet the most extreme requirements of static pressure absorption.

FIG. 4 shows, in perspective, in vertical and horizontal section, a partially identical component as in FIG. 1. Reference is made to the description given there, insofar as there is agreement. On the right-hand side, a box-shaped building shell 20 with a circumferential airtight seal 10 k, enclosing a cavity H 3, is placed on the interior shell 16. A two-part tube 18 a with a stopcock 18 protrudes through the box wall 20 and the building shell into the cavity H 2. This makes it possible to evacuate the air from both the cavity H 2 and from the cavity H 3. Since this happens at the same time through corresponding openings in the pipe, the building shell 16 remains unaffected by these pressure changes. On the other hand, the building shell 3b, if it is designed to be flexible, will bend out to form the cavity H. For this purpose, the stand means 15 are also designed to be elastic. The building shell 20 holds - is pressed tightly to the building shell 16 by the evacuation of the air. In order to avoid destroying the building shell 2o, this building shell 20 is designed to be rigid and resistant to pressure and bending (not shown).

On the opposite outer shell 3 a, such a box-shaped shell, for. B. in connection with the edge screws (or in connection with screws going through the shell surfaces)

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¹³ 19 23652

be arranged on this supporting itself, as in more detail below described.

Are by such outer building shells 20, which after their later removal as the final remaining building shells 3 a and 3 b from the atmospheric Pressure is relieved, then the air trapped inside the component with atmospheric pressure, the building shells 3 a, 3 b after Bend convex on the outside and increase the distance between the building shells. This makes it possible to create the cavity H 1 between the building shells 3 a, 3 b to evacuate. Then into the box-shaped cavities H 2, H 3 let in air and thus the bowing of the shells 3 a, 3 b inward to be concave. As a result, the honeycomb webs placed in the corresponding counter-tension and all load-bearing structural element parts supported in a rigid manner. After letting the air into the outer cavities these box-shaped building shells 20 can be removed again.

Figure 5 shows in vertical section a component with the building shells 3 a and 3 b partially coincides with FIG. 1, in this respect reference is made to the description there.

The intermediate shells 9 are bent at right angles and at their ends

X. engage in airtight sealing in rubber seals 10 ′. Between them and the building shells 3 a and 3 b, a honeycomb plate 8 is arranged, which can be pressed on by the mobility of the building plate η 9. On a screw 11 (without screw head) the shells 3 a, 3 b and a middle shell (plate) 9min are arranged in such a way that nuts 12 w can be operated either on the screws 11, increasing or decreasing their distance from one another. Between seals 10 further nuts 12 m are provided, which move outward when unscrewed, ie increase the distance from one another and thus at the same time

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y / 9

Optionally, distance the building shells 3 a and 3 b. This is how it is possible to extend the distances between the building shells 3 a so that the air when evacuating from the honeycomb 8 a over to the individual Honeycomb plates provided suction pipes 18 with stopcocks 18 b and an associated evacuator in front of device 101, 102, 10 3, completely can flow out.

In addition, in the adjacent cavity H 2 via a suction pipe 18 a also a vacuum can be established and on the opposite side a pressure-resistant shell 20 'via seals 10 k to the Bolts 11 with nuts 12 k and lock nuts 12 k 'be arranged. The component is attached to a concrete slab 2 via an angle frame 1 fastened so that the atmospheric pressure, which is on the building shell 20, is transferred to the concrete slab 2 via the screws 11 and the frame 1 is transmitted. By evacuating the cavity H 4 and H 2, the building shells 3 a, 3 b, if flexible, become convex due to the internal pressure bent outwards and thus also the building shell finances enlarged to each other. After the evacuation has been completed via the evacuation pipes 18 and a collecting line 101, which is connected via valves V to a vacuum container 102, which is supplied by a vacuum pump 103 is evacuated, the stop cocks are closed and air is let into the cavity H 4 via a stop cock 18 c. Instead, you can also an overpressure can be given via a compressed air device 105 in the cavity H 4 and thus the distance between the building shells 3 a and 3 b in the direction of one another with corresponding generation of a counter-tension in the honeycomb webs 8 b. Attracting the Nuts 12 w and 12 w 'to secure this pressure state can then easier to do. Previously, the nuts are 12 m in the direction of the building shell 9 m with appropriate compression of the intermediate Seals 10 to operate. As far as between the building shells 3 a, 3 b the Screws connecting shell surfaces are arranged, can

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this by airtight installation of special screw devices in. The shell 20 'in the overpressure state of the Cavity H 4 mechanically operated to secure and maintain the stress state of the honeycomb webs 8 b will. In the right part of the component, FIG. 4 shows a shell 16 which has a stationary interior wall forms. Behind this is a water tank 111 or equivalent running square water pipes designed to be stationary and pressure-resistant, arranged. The water tank can to the interior shell, e.g. B. a gypsum wall, openings 111 a, which are sealed with substances that are used in certain Temperatures melt and thus cause the water to escape from the container into the building shell 16. This is in order to provide effective protection for the upstream plastic in the event of a fire, some of which are easily destroyed by heat existing component. The water tank can be used for heating in winter and for heating in summer Serve cooling. Behind this water tank are one or more successive trapezoidal plates 112 with welded on horizontal or vertical trapezoidal profiles. Also the opposite profile side of the trapezoidal plate is welded to a sheet metal, which is part of a fixed composite shell 113, consisting of a combination refractory panels can be. This is followed by the already mentioned cavity H 2 with a circumferential elastic one Seal 10. This cavity H 2 can be provided with an overpressure and thus the adjacent

- 16 -

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exposed parts of the component are given the desired stress state will.

If the building shell 20 'is not needed, it can be removed by loosening the Nuts 12 k can be removed.

In principle, the evacuation tubes with their valves can be arranged in this way be e.g. B. in slots that they can be removed or reinserted at any time.

The cavities provided with overpressure can instead of air with a liquid or with solid substances or pulpy substances z. B. chemically set and solidify, filled with a predetermined pressure will.

Figure 6 shows another embodiment of the component. Based on the idea of being able to optimally absorb certain loads or pressures with as little material as possible, the invention also relates to the honeycomb panels or the like acting vertically on the load-bearing building shells or building boards as load-bearing pressure-resistant elements to train, namely to elements that are pressure-resistant in different directions.

The invention is based on the idea that hollow bodies, in particular pipes, are more resistant to kinks. Furthermore, the invention is based on the idea of absorbing the forces occurring vertically and horizontally by means of right-angled configurations. Another idea is to weld the elements that are used to form chambers, cells, honeycombs together after the pressure state / or in these chambers, honeycombs, cells. a vacuum has been established, which in

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the carrying and support system to achieve optimum tension granted with a predetermined load capacity. The construction shells can also be produced in a combined sandwich form with non-metallic materials be"

In the perspective vertical-horizontal section, the present exemplary embodiment provides for supporting construction trays A, A ', B to be produced initially as individual parts. The building shells A and A 'are formed by two sandwich panels 121 which have honeycombs 122 formed at right angles between them. These honeycombs 122 are made in such a way that vertical sheet metal strips 122 a are arranged at certain distances from one another and between these vertical strips square tube pieces 123 made of metal are glued in a honeycomb-like manner and when these square tube pieces are stacked on top of one another, a thin rectangular sheet metal disc 122 b is placed between them (see Fig Figure 6 a). These vertical and horizontal sheet metal parts are kept somewhat larger in the depth direction to the cover plates or composite building boards and are preferably approximately razor-sharp. Such a rectangular honeycomb pattern is placed between the composite plates 121 provided with sheet steel surfaces 125 in an evacuation housing (see application P 23 62 497.7) and the cathode pole of a capacitor welding machine is attached to the steel honeycomb structure 122 a, 122 b, 125 and the anode pole the steel surfaces 125 of the composite plates 121 connected, then after evacuation of the housing (1) and thus the evacuation of the honeycombs and after applying the required welding pressure by movable pressure plates (8 or 29) of the housing device (1) (s ₀ application cited above ) by the welding current, an ignition of the arc by means of the razor-sharp contacts of the vertical and horizontal honeycomb panel parts take place. The protruding sheet metal parts are melted off and during this melting time the flat cuts of the square tube parts are melted flat by the arcs and with the opposite ones

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The evacuated honeycombs formed in this way are welded airtight to parts of the metal surfaces of the composite building panels. The ionization of the welding current can be favored by the addition of known ionizing substances.

The middle building shell B shows a variant of this. The composite panels 121 lie in the middle between the honeycombs 122. The plates with the honeycombs are outwardly through metal sheets 127 by welding closed.

As Figure 6 shows, are between the building panels A and B and B and A 'large honeycombs 130, These are made in the same way from vertical metal sheets 122 a', horizontal metal sheets 122 b 'and pieces of square pipe 123 'is formed like the honeycombs 122, but the side walls 127 of the "small honeycombs of the building panels B" form a common honeycomb wall and to form the large honeycombs 130. These side walls 127 are flexible. If an overpressure is created in the large chambers, then so this acts via the free honeycomb surface of the large honeycomb 130 on the opposite honeycomb webs of the smaller honeycombs 122 and is offset these in additional tension with which they support the supporting intermediate plates 121 '. For this purpose the construction trays A, B, A 'according to the application P 23 62 497.7 in a pressurized housing spent and between them the vertical plates 122 a 'and horizontal Plates 122 b 'arranged and at the same time the correspondingly sized square tube pieces 123' are glued to the plates 122 a 'and b' and then in the same way to honeycombs 13o under the pressure of the pressure plates (8 or 29, see the application cited) as to the Chambers 122 described, welded. The welding takes place at a predetermined overpressure in the housing (1), which continues for an unlimited period of time in the honeycombs 130, which are thus hermetically sealed and the adjacent parts of the component placed in tension or supported,. .

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19th 2 3 6 5 2 O C

Since the sweat could tear at high pressures, the embodiment provides that, for. B. from outer surface to outer surface, depending on the requirement, divided over the total area, connecting screws 140 are arranged airtight. So that the support of the outer surfaces of the building shell is as uniform as possible, vertical and horizontal square tubes 131, 132, preferably firmly connected to one another, are arranged on the outer surfaces (e.g. by welding). These take up the internal pressure and transmit it to the connection screws 140. These connection screws are preferably welded at one end to, for example, the horizontal square tubes 132 and are at the other end by machine-operated nuts 141 while the overpressure exists in the housing (according to application P 23 62 497, 7) tightened to the maximum, so that the voltage stood as it is produced by the overpressure, even after the external overpressure has ceased, ie after the overpressure air has been released from the housing (1) accordingly the internal excess air pressure continues unabated.

The connection screws 140, however, have a further significance. In the overpressure housing (1), it is possible to tighten these connection screws en 140 far more firmly than would be possible at atmospheric external pressure outside the overpressure housing when there is overpressure in it. Since the pressure in the large honeycomb 130 in the housing (1) is the same as the overpressure that is predetermined in the housing (1), the screwing machines inside the housing are tightened independently of the overpressure. It can therefore extremely high voltage states in all honeycomb bars, chamber bars, cell bars or the like., Inside the housing (1) under the existing overpressure, regardless of this, can therefore be brought about with powerful screw machines. This high voltage to stand adds in addition to the stress state of the of the overpressure in the combs

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130 comes into effect after the component has been brought into an environment with atmospheric pressure.

This shows the great importance of such an enabling of additional increased stress states via overpressure housings and for this purpose the devices and means arranged therein.

Such connecting screws 140 are only one exemplary embodiment for many other means by which the same end can be achieved.

So z. B. with leverage tensioned tapes can be placed around the component in the overpressure housing. For this purpose, the vertical or horizontal pressure plates (8 or 29, see the cited application from Dec. 15, 1973) can exert almost unlimited high pressures on the building shells. The tightening of the clamping screws or straps or the like takes place at least up to this from the machine z. B. state of tension caused by high pressure from the pressure plates. This seizt, of course, that the honeycomb webs have a correspondingly high flexural strength that z. B ₀ by combining several layers that are glued or welded together or otherwise connected and in combination with correspondingly strong filler pieces, e.g. steel square tube pieces with almost any bending strength. Since all parts that are necessary for the load-bearing capacity of the component can be given any desired strength and property in advance and in combination, there are almost unlimited possible applications for such components, especially in cases of the highest compressive stress.

This is not only important for building construction and thus for the possibility of building buildings many times higher than currently the highest Bau th are, but also for absorbing lateral pressures in civil engineering

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£. IODE <ί U

as well as for the construction of spaces below sea level that high water pressures, etc. must withstand in the horizontal direction, " as well as for shipbuilding, vehicle construction, aircraft construction or simply for all objects that are exposed to high pressures to take them up in a statically compensating manner by counter-tensioning or pretensioning to have.

The Androck plates (8 or, 29, s, cited application) can optionally ζ »B. initially only with the pressure during the welding process act on the components, which can be optimally applied as welding pressure is «, the pressure can be regulated in a predetermined manner as required.

The arrangement of larger "honeycombs to accommodate an overpressure and smaller honeycombs to accommodate a low pressure or vacuum expedient »around the open spaces delimited by the honeycomb webs of the larger honeycombs, better against the more numerous honeycomb webs opposite the smaller honeycomb 122 to be able to press on.

By seeing an internal overpressure, it is possible to make the component rigid on the outside and z. B, box-shaped closed, and welded without encasing elastic seals or the like ,, This rigidity consists in lightweight construction and composite method with predetermined! Tension to stand according to the predetermined pressures to be recorded. The use of material for this can be precisely calculated in advance »This means that the most efficient construction method of the component can be predetermined _o The high level of economic efficiency results from the comparison of the material savings compared to the previous construction method. In addition, extreme construction of the new device are possible, which had to "be so far been excluded from any consideration from the outset. The components can werden.- standardized industrially manufactured in mass production

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FIG. 6 a shows a honeycomb panel, as is the case with the component according to FIG underlying.

FIG. 6 b shows a variant of FIG. 6 a. The honeycomb cavities are by a metal band 135, which is bent alternately at right angles according to the predetermined honeycomb size, together with both sides to this tape preferably welded or glued sheet metal strips 122 a formed. In these precisely manufacturable honeycomb cavities can Filler pieces, e.g. B. square pipe pieces 123 are used.

The welding is carried out in the same manner as described above in the case of the honeycomb panel Figure 6a under an arc ignition over approximately razor-sharp Edge.

For this purpose, the edges of the strip 135, which is profiled at right angles be sharp or the band 135 can be kept very thin. If necessary, the edges of the square tube pieces can be designed to be sharp, pointed instead of flat.

The sheets of the construction trays, which serve as cover plates for the honeycomb panels, can be provided with corrugations to the outside and, due to the point-by-point contact with the honeycomb panels, the ignition enable the arc.

Such beads can also be directed inwards, i.e. in the case of a sandwich composite, z. B. be formed after the plastic layer and to the outside of these beads to an increased extent take up adhesives, z. B. Metal adhesives, such as those used in aircraft construction. This makes it possible to create a much more solid bond between the To achieve corrugations (similarly running) used honeycomb webs. This latter solution has the further advantage that the thrust forces by d e

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23 12

, especially to overcome inwardly directed horizontal corrugations an additional resistance at the same high pressure, the composite sheet or plate had "Also, the type and shape of the corrugations can specifically hindering the thrust _s z. B, be provided with downwardly oppositely directed expressions of a horizontal type.

The surfaces of composite construction are en scarf expediently _s are calculated and arranged with forms and beads and the like provided that the composite sheet is given a maximum strength and in particular bending strength and shear prevention.

The honeycomb panels can also be made from trapezoidal sheets or corrugated sheets be that with each other with the interposition of perpendicular load-bearing Sheets or composite panels are welded. Such trapezoidal sheets or corrugated sheets are arranged crosswise in a composite manner advantageous.

Zigzag metal sheets can also be designed as honeycomb panels.

All such profiled. Sheet metal plates can, for example, be covered with metal in such a way that they form an evacuable support plate which, depending on requirements, is subdivided into any number of individual chambers or honeycombs which are hermetically sealed from one another by transverse subdivisions of the profiles.

Elastic compressible and are preferably suitable for subdivision firmly glued materials, e.g. B. synthetic rubber or plastic material, e.g. B, also rigid foams with closed pores, instead of profiled Metal plates can also be provided solid plastic plates in a profiled or flat shape and also made of plastic through under

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24 ^ q 2385200

Embossings made by heat, e.g. B. honeycomb open on one side * - plates, be formed that with other flat plastic plates in known way plastic can be welded to plastic. Solid plastic sheets or rigid foam sheets can also be perforated be, the thickness of the plates is to be chosen so that these perforations of the honeycomb and the remaining material surfaces as Honeycomb bars are used to absorb tension.

The honeycombs can also be foamed from ge in a known manner, wherein However, it is advantageous to relocate the compressive stresses in the honeycomb webs and only press these against the building shells vertically.

In addition, it should be noted that metal sheets can also be formed into honeycomb panels by deep drawing, which are open at least on one side. These openings can be provided alternately on one side as well as on the other side by means of corresponding embossings. Deep-drawn sheets, e.g. B. with mutually directed honeycomb ₇ surfaces can be combined with one another by welding. The sheet metal deformations caused by deep drawing and embossing have special strengths determined by the third dimension. Such honeycomb panels produced by deep-drawing and embossing and possibly partial punching in combination with filler pieces or the like make it possible to produce particularly rigid honeycomb panels.

In addition to FIGS. 6 a and 6 b, it should be pointed out that the square tube fillers, e.g. with their open sides alternately offset once towards the building shells and then to the perpendicular right sheets 122 a or also to the horizontal intermediate sheets 122 b can be arranged. This is particularly the case when these square tube pieces are square and thus optionally allow any arrangement within the honeycomb.

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The vertically and horizontally provided strips 12Z a and 122 b can also be provided with fine, sharp beads and thus enable flat welds between themselves and the adjacent filler pieces 123 by arc ignition.

When using profiled sheets or plastic plates or the like. For the production of honeycomb panels, it should be borne in mind that with a slightly convex training z. B _{0 of} the outer building shells, the load has the tendency to bend the building shells even further outwards in a bulbous manner. This requires (apart from the existing connections) considerable work in the physical sense, which results from the enlargement of the inner airtight cavity of the all-round closed component and the necessary displacement of the air masses resting on the outer construction shells. Reference is made here to Otto von Gericke's attempt at the German Reichstag in Regensburg. It took 16 strong horses to tear apart two hemispheres about 50 cm in diameter, which had previously been connected to one another by evacuation _o If convex arrangements or structural elements are required for structural reasons, it is therefore advisable to use profiled sheets to honeycomb formations, z "B" trapezoidal metal sheets or corrugated sheets _S such angles apply with flat verlaufendem profile.

In flat extending profile angles, z ₀ B ₀ to a Bauschalenfläche occurs an increase in the space defined by the profile surface opposite the Bauschalenebene at increasing the angle z. B ₀ instead of excessive pressure. However, if the angle is at least 45 degrees or greater, then a reduction takes place, which in the present case would favor the tendency to collapse of the component under an excessive load,

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Generally speaking, such composite construction elements in lightweight construction with stresses can be formed by simply alternating building shells and honeycomb panels (in the broadest sense) with alternately evacuated honeycomb spaces and then again a honeycomb panel with overpressure, then a building shell and immediately alternating depending on the requirements of the load-bearing capacity . Both the edge parts and the surfaces can be connected by transverse connecting means, for example tensioning screws, in such a way that predetermined stress states are brought about in the component. Such a component as a whole can again be airtight and rigid, e.g. B. be encased in metal and in particular the standing surfaces and the surfaces that are to absorb the loads, are formed in a suitable manner for this purpose. However, edge screws can also be completely removed and the cross screws can also be replaced from surface to surface, for example by tensioning straps that are placed around the component. Also z. B. can be dispensed with by foaming on evacuable cavities. On the other hand, the creation of an overpressure, regardless of whether with gaseous, liquid or solid substances, is advantageous in the case of high loads. It is of particular importance that the building shell surfaces of vertical support means, eg. B. honeycomb webs that are firmly interconnected, ie the webs with each other as such. B, in the case of honeycomb panels, form a composite and thereby the compressive forces acting on the honeycomb webs come into effect in a concentrated manner on the construction shell contact points.

There are both movable construction shells as well as only flexible construction shells as well as flexible and at the same time movable construction shells as well as rigid construction shells can be used to achieve various purposes. Even elastic intermediate layers, e.g. B. rubber sheets, be interposed and also interlayers, which are in the honeycomb openings, this hermetically sealed, can use, for. B. Plastic foams. For this purpose, foils can also be used at the same time. The versatility The requirements for such components are a corresponding variety of constructive training options available.

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The components can also be used without internal connecting means by applying high pressures ^ that by external connecting means, ζ. Β. Straps or z. B. of clamping screws guided transversely through the component, be connected to form a solid, rigid unit.

The pouring of construction elements, especially under overpressure with other substances, such as concrete, is also of particular importance, with the inner construction element being special to the casting compound, the combination of the two constructive design, e.g. perforated u-shape may have welded stiffeners. Just an airtight and evacuated cavity with a honeycomb panel within such a building mass already causes considerable flexural strength.

The components described above can also be used for ceilings and bridges and the like, find application, there are elongated building shells that in the transverse direction of z. B. honeycomb panels are pressed and preferably The construction shells are rigidly welded to these and honeycomb panels can be provided in any number corresponding width, e.g. B «a bridge, to enable« the load-bearing capacity depends on the height of such building shells, on their type of material, their connection method and the existing support voltage accordingly the voltage specified in the honeycomb bars.

Spans result from this highly pressure-resistant and load-bearing lightweight construction method that was previously not achievable. Tensile forces can also be exerted through the movable arrangement of certain building shells that limit excess pressure cavities, through which z. B. the wings as well as the lower surfaces of bridges can be stretched taut and thereby contribute to the load-bearing capacity of such bridges .

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The invention thus extends not only to pressure-absorbing Construction elements, but also construction elements exercising tension,

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Claims (1)

Dr. Otto Becker December 29, 1973 Saarbrücken i Robert-Koch-Str. 59 Claims Component, preferably made of metal or plastic, in particular Load-bearing component, eg for buildings, columns, bridges, vehicles, consisting of two or more shells or plates / which enclose at least one cavity, characterized in that ■ a plurality of different means are provided which generate stresses in the component, through which the external and the intermediate building shells are supported with increased flexural strength, " 2 «, component according to claim 1, characterized in that as a means for generating the voltages evacuation devices for evacuating cavities, in particular honeycomb panels and / or means for producing an overpressure in cavities of the component and / or means for tensioning the successive ones Layers of the component against one another, e.g. B. clamping screws that go transversely through the component or tightening straps are provided. 3. Component according to claims 1 and 2 “characterized in that all parts of the component in a composite manner, e.g. B. by welding and / or gluing are firmly connected to one another to form a unit. 509827/0464 4. Component according to claims 1-3, characterized in that at least part of the component z. B, one of the cavities has a rigid border, for example made of metal. 5. Component according to claims 1-4,. characterized in that Means are arranged to maintain the voltages in the component, ζ-. B. Tensioning screws, tensioning straps, rigid enclosures, encapsulated masses, e.g. B. Concrete. 6 »Component according to one of the other claims, characterized in that the honeycomb panels are designed as load-bearing building panels, preferably load-bearing in the vertical and horizontal directions. 7. Component according to one of the other claims, characterized in that the building shells to transversely projecting means, z. B. screws, are arranged displaceably, 8. Component according to one of the other claims, characterized in that the honeycomb webs consist of multi-part combined, firmly connected parts. 9. Component according to one of the other claims, characterized in that pressure-resistant and flexurally resistant filler pieces, for example square pipe pieces, are introduced into the honeycomb. 509827/0464 10, component according to one of the other claims, characterized in that the edges of the honeycomb panels are roughly razor-sharp or thin and thus ignite arcs. 11, component according to one of the other claims, characterized in that the honeycomb panels with honeycombs of different sizes are arranged in the same component _e 12, component according to one of the other claims, characterized in that the larger honeycombs are provided with overpressure and the smaller honeycombs with a lower pressure or vacuum. 13, component according to one of the other claims, characterized in that the building shell is flexible and / or movable. 14, component according to one of the other claims, characterized in that the building shells are rigid " 15, component according to one of the other claims, characterized in that the component forms a rigid unit, 16. Component according to one of the other claims, characterized in that the component is bonded by pressure. 509827/0464 17. Component according to one of the other claims, characterized in that the building shells are convexly curved. 18. Component according to one of the other claims, characterized in that the pipes for evacuating or filling gases or substances with excess pressure are inserted through slots and can be removed therefrom and can be reinserted. 19. Component according to one of the other claims, characterized in that a rigid shell is stretched or laid or cast around the component. 509827/0 46A Blank page