DE4314714A1 - Spatial structure for the construction of buildings and process for its production - Google Patents

Abstract

The invention discloses a free-standing carcass unit or system-built structural unit, as three-dimensional body for constructing single-storey or multiple-storey building structures from a multiplicity of such three-dimensional bodies, each three-dimensional body being made up to prefabricated compound elements which each form a two-hinged frame in the longitudinal direction and a three-hinged frame in the transverse direction. The three-hinged frame can be transferred into a two-hinged frame by positive or frictional locking. Advantageously, the two prefabricated compound elements are produced together from concrete in such a manner that, after their manufacture, they can be separated for transportation and/or for storage, can be connected once again on site for constructing the building structure, and can be separated once again for dismantling the building structure in order then, if appropriate, to be used in a corresponding manner for constructing another building structure. <IMAGE>

Description

The invention relates to a structure of little at least one spatial body as a free-standing raw or fer tig building cell.

Buildings constructed from spatial bodies are known have the disadvantage that they are either only with large Effort to manufacture and / or transport and / or are mountable or not sufficient variations diversity for buildings to be erected in a wide variety Have type such. B. (without completeness) living, and office buildings, parking decks, parking garages, underground garages, Exhibition stands, warehouses, hall installations, glass houses Conservatory, balconies. The well-known, from several room body-built structures show above all the we substantial disadvantage that it is a significant on wall needs, a common Au formed by them blanket, e.g. B. Parking garage ceiling with longer life to get waterproof.

The object of the invention is one with high precision easy to manufacture, without difficulty from the manufacturer Location that can be transported to the construction site, even without a crane easy to assemble room body to specify from which the most diverse single or multi-storey buildings with a wide range of variations, which - like e.g. B. hall installations and exhibition stands - even just before temporary purposes and then easy to dismantle and again for other structures  should be reusable in a different design and the waterproof ceilings with no difficulty form long life.

The object is achieved with the characteristic Features of claim 1 solved. Favorable off Formations and further developments according to the invention derive from the characteristics of the Un claims and the description below for Aus leadership examples based on a schematic drawing are illustrated.

Advantageous exemplary embodiments and further developments the invention result from the features of Subclaims and / or the following description.

Based on a schematic drawing are fiction, ge moderate embodiments described. This shows

Fig. 1a a spatial body according to the invention in plan view from two prefabricated concrete components from below

FIG. 1b of the chamber body of Fig. 1a in per spectral TiVi view;

Fig. 2 shows another spatial body according to the invention in plan view from two prefabricated concrete components from below

FIGS. 3a and 3b are vertical sections through abutting surfaces of two a space body according to Fig. 1 and 2 forming precast concrete components in a truncated representation,

Fig. 4 is a vertical section through two adjoining chamber body in a truncated representation,

FIG. 5a side view of several hinged in a plane arranged inventive chamber body and between them ceiling elements as installed in an industrial hall,

Fig. 5b side view in the region of the support of a mounted between two fiction, modern space bodies ceiling element in a truncated representation,

Fig. 5c side view of an underground car park consisting of several spatial objects according to the invention and ceiling elements suspended between them

Fig. 5d side view of a two-storey residential building from a plurality of fiction, modern space bodies,

Fig. 6 side view of a contemporary space Invention body of FIG. 1 in conjunction with a parapet in a truncated representation,

Fig. 7a plan view of the junction of four adjacent spatial inventions according to the invention in a broken view from below

Fig. 7b top view of one of several he inventive bodies gebil Dete ceiling with integrated drainage system from above

Fig. 8 vertical sectional position by two aufein other asked inventive chamber body in a truncated Dar,

Fig. 9 perspective view of a chamber body OF INVENTION to the invention of two skeletal joinery.

Fig. 1a and 1b show a Raumkör invention per 1 in plan view from below (Fig. 1a) and in perspective (Fig. 1b) in a first embodiment. The room body I is composed of two prefabricated components 1 and 2 , which are preferably made of concrete. The Be clay finished component 1 consists of a rectangular ceiling section 3 of length "l" and width "b1". At the outer corners on the underside of the Deckenabschnit tes 3 in alignment with the outer longitudinal side 4 there are two vertical supports 5 and 6 of the same height h. The prefabricated concrete component 2 in turn consists of a rectangular ceiling section 7 of length "l" and width "b2". At the outer corners on the underside of the ceiling section 7 in alignment with the outer longitudinal side 8 there are also two vertical supports 9 and 10 of height "h".

The lengths "l" of the ceiling sections 3 and 7 of the two prefabricated concrete components 1 and 2 match, the widths "b1" and "b2" can be the same or different. Furthermore, the supports 5 and 6 of the prefabricated concrete part 1 and the supports 9 and 10 of the prefabricated concrete part 2 each have the same height h.

The upright two prefabricated concrete components 1 and 2 together form the free-standing, functional body I by supporting each other on their end faces along their inner long sides 11 and 12 . The cut from the Deckenab 3 and 7 composite two-part ceiling of the room body I is supported by the four supports 5 , 6 , 9 and 10 .

From a static point of view, the two prefabricated concrete components 1 and 2 each consist of a branch steering frame in the longitudinal direction, and the mutually supporting concrete prefabricated components 1 and 2 which are placed against one another to form the spatial body 1 according to the invention form a three-joint frame in the transverse direction, as illustrated in FIG . The two opposite arrows in Fig. 1b show directions in which the two components 1 and 2 are put together.

Several in the transverse and / or longitudinal direction put together body I form a plane that can be used for under different purposes. The three-dimensional structure on the supports of the three-joint frame are connected to one another by train ( FIG. 4 below).

Two supports of a prefabricated concrete component 1 or 2 can be connected to each other by a vertical wall element 4 'indicated by dashed lines in Fig. 1a' along the outer longitudinal side 4 . The supports then form the lateral boundaries of the longitudinal wall section, which represents an outer or inner or intermediate wall section of a building constructed from several spatial bodies and which can also have openings in the form of windows or doors.

In addition to the vertical wall element 4 'or alone, at least along one transverse side of the two prefabricated concrete components there can be a dashed, vertical wall element 2 ', 3 ', which is delimited on the outside by a support 6 or 10 and which has a vertical abutting surface on the inside forms, which connects to the end face of the long side 11 or 12 . in the space body composed of the two prefabricated concrete components 1 and 2 , the two vertical wall elements 2 'and 3 ' form a substantially closed vertical wall section which, like the vertical wall element 4 ', has an outer or inner or intermediate wall section of one of several Spaces I can represent built building.

Fig. 2 shows a plan view from below of another space body 11 according to the invention, which differs from the space body according to FIGS. 1a and 1b only in that the supports 5 'and 9 ' of the one (right) outer corners of the prefabricated concrete components 1 and 2 each have the distance c. Such an offset can e.g. B. for the construction of an underground car park from several such spaces may be advantageous to facilitate parking between the supports 5 'and 9 ' (the following Fig. 5c).

The connection of the spatial bodies on the supports of the three Steering frames using tension members can be easily removed again disassemble so that the room body in the same or another arrangement for the same or different purposes can be rebuilt in other places.

The transport of the two prefabricated components 1 and 2 on trucks does not pose any difficulties if the dimen solutions of the prefabricated concrete components are adapted to the respective transport options of the trucks. For this purpose, the precast concrete elements 1 and 2 can each have, for example, a length of 5, 6, 7, 8 or 9 meters and a width of 2 or 3 meters with a clearance height of, for example, 280 cm. The base area of a room body made of two precast concrete elements, each 3 x 9 meters, is 6 × 9 = 54.0 m². With prefabricated concrete components in the dimensions selected above, there are already 12 possible variations for the construction of spatial structures for different square meters. However, the invention is not limited to such dimensions.

The individual prefabricated concrete components are easy to use Manufacture in series in precision steel molds. To the two prefabricated concrete components for an inventive To produce spatial bodies, four prefabricated studs are made zen used in a formwork device, the one common formwork table for the two ceiling sections of the spatial body. In the formwork table is a flat formwork sheet as formwork separating element to Un division of the two ceiling elements. On the formwork table then closes to form the two Ceiling elements and for concreting the ceiling cuts to the supports poured with concrete, the Formwork separating element with selected outer profile to the a ceiling element is concreted.

Fig. 3a and Fig. 3b show the cross-sections through two adjacent ceiling portions 13, 14 and 15, 16 which have been respectively prepared together in a formwork table, wherein the formwork separating element 17 and 18 with anchors 19 and 20 at a ceiling portion 13 or 15 is concreted, while the other section of the ceiling rests against the outer surface of the shuttering element.

According to Fig. 3a, the formwork separating element consists of egg NEM straight sheet metal strip, which is perpendicular to the plane of the ceiling elements. According to Fig. 3b, the formwork separating element is semicircularly curved in cross section. Since the ceiling elements 13 , 14 and 15 , 16 are each made together in a formwork table, inventions ensures, in accordance with the invention, that when the formwork separating element is interposed, its end faces are exactly adjacent to one another with their end faces.

The semicircular cross-section of the formwork element and the correspondingly adapted end faces of the ceiling element offer the advantage that mounting tolerances are permissible when setting up a body. So the adjacent ceiling elements do not have to be exactly aligned horizontally during assembly in order to be able to ensure a flat contact of the ceiling elements on their adjoining end faces. In the embodiment according to FIG. 3b, a planar position is also ensured if the adjoining ceiling elements form a flat roof-shaped angle, which settles in accordance with the expected setting process of the two prefabricated concrete components in a substantially horizontal position. In this setting process, the full-surface contact of the two sections of the room body that are supported on their end faces is always preserved. Linear contacts are advantageously avoided.

The face-to-face vertical wall sections 2 'and 3 ' along a transverse side of the two prefabricated concrete components 1 and 2 can be made according to the same way as the ceiling sections in a common form of form, with a corresponding formwork separating element being located on the end face of one wall section 2 'or 3 '.

Fig. 4 shows two adjacent chamber body according to the invention Ia, Ib in a truncated representation. The adjoining in the direction of the three-joint frame supports 21 and 22 of the two spatial bodies Ia, Ib are connected to each other by a tension member 23 (bolt) which is inserted in aligned holes 32 and 33 in the supports, the holes being prefabricated.

On the opposite upper longitudinal edges in the direction of the two-joint frame, the two prefabricated concrete parts have approximately the same size recesses 24 , 25 , which together form a drainage channel 26 . The vertical right gap between the two supports 21 , 22 below half of the groove 26 is sealed by an inserted sealing tape 26 watertight. The angled edges 29 and 30 of a channel made of sheet metal or plastic are glued into slots 27 and 28 at opposite upper ends of the recesses 24 , 25 . The gutter is covered by a grate 31 which can be driven over, in order, for B. to be able to form a passable and walkable ceiling part of an underground car park.

In the ceiling of a body constructed from several bodies according to the invention, a drainage system can be integrated from interconnected gutters. The channels can also connect to vertical downpipes. In this connection, reference is made to FIGS. 7a and 7b.

Fig. 7a shows in plan view from below four adjoining space bodies Ic to If at outer corner points.

The adjoining four supports 33 to 36 form a central node for housing egg nes vertical drain pipe 37th For this purpose, the four supports 33 to 36 each have semicircular prefabricated recesses 38 to 41 on their outer edges, which together form a vertical round shaft in which the flow tube 37 finds space, which is tightly attached to the channel system in the ceiling formed by a plurality of bodies is closed. In multi-storey buildings put together space bodies, the drain pipe on wet cells can be closed.

Fig. 7b shows a plan view from above of a ceiling section, which is gebil det of the four bodies Ic to If with two substantially horizontal channels 26 , 26 'which intersect at the central node where they are connected to the vertical drain pipe 37 are.

A spatial body composed of two prefabricated concrete components can have prefabricated recesses along its longitudinal and transverse sides, as shown at 24 and 25 in FIG. 4. Furthermore, the spatial body can have a vertical recess at least on the outer edge of a support, as is shown at 38 to 41 on four adjacent supports in FIG. 7a. These spatial objects or the precast concrete components that form them can be custom-made.

To ensure safe water drainage on one of several To ensure the body of the composite ceiling can, it can be advantageous if that of the Ren formed sides along the precast concrete components edge of the two a spatial structure of a prefabricated concrete building  part is slightly higher than its outer longitudinal pages. The ceiling surface of the precast concrete elements falls from their inner long sides to the outer long sides slightly off. The inclination can be 1%.

The drainage system in a free, from several ren space bodies according to the invention formed ceiling the basic idea is essentially all joints in the ceiling level between each other not to close the zen body, but open it to let and train as gullies.

If the water channels are large enough, there is no need for a slope. It is clear that the inven tion is not limited to the gutter design of FIG. 4 be.

The ceiling sections of the prefabricated concrete components have been removed the factory coated waterproof and / or as what water-tight concrete slabs.

The ceilings formed by several spatial bodies with inte grated drainage system can not only as free passable and walkable areas are designed, they are also suitable as a wing for planting. In in such a case the channels are covered with a protective film ter covered. In the vertical downpipe or drainpipe Ren valves can be provided through which the required water retention for the plants is stopped can be.

The precast concrete components for the construction of the invention Spacious bodies can advantageously be standard with empty pipes, junction boxes and junction boxes for  electrical lines, switches and sockets most to an electrical installation in a simple way to be able to make.

The spatial bodies can be perpendicular to each other in two running directions like a checkerboard at a distance to be assembled. The gaps are also included completed the ceiling elements. The ceiling elements lie then on the recesses for the gutters or on additional beams.

The spatial bodies can also be in parallel rows be mounted with the distance to the next row is bridged with suspended ceiling elements. Also here the ceiling elements lie on recesses for the Gutters open.

The ceiling elements can easily in any country gene be produced. It is therefore possible to use the space to install elements in industrial halls to create levels to accomplish. Different length and width dimensions solutions in the industrial halls can be Easily compensate for length-adjusted ceiling elements that be hooked between the inventive body.

Fig. 5a shows a view of an industrial hall with spaced apart bodies in three rows 42 , 43 and 44 space I and in between in two rows suspended ceiling elements 44 and 45 , only the three foremost space bodies and the foremost ceiling elements being shown. The ceiling elements 44 and 45 are shown in section in Fig. 5a.

Fig. 5 b shows a broken view in view of the left connection of the front end of a ceiling element 45 to the visible front support 46 of a room body I g in the direction of the two-joint frame by means of a tension member 47 , which is aligned with one another in the horizontal, prefabricated holes in the support 46 and penetrates in a shoulder 48 on the ceiling element 45 . The tension member 47 can be designed corresponding to the bolt 23 in FIG. 4. Accordingly, the invisible rear end of the ceiling element is connected to the invisible rear support of the spatial body, which is covered by the front support 46 . The ceiling element 45 rests with its left projection 49 in the recess 50 to form a drainage channel, as shown in FIG. 4. The not shown right end of the ceiling element is designed accordingly and connected in the same way to a room body which is arranged at the necessary distance from the room body Ig.

Fig. 5 c shows the view of an underground garage from two spaced rows 51 and 52 of room bodies II corresponding to FIG. 2 with a row of ceiling elements 53 suspended in between, each of which in turn only the two foremost room bodies and the foremost ceiling element are visible . The inner lane supports of the room body widen the middle lane, making it easier to park in the parking spaces to the left and right of the lane. Ceiling element 53 is shown in section.

Fig. 5 d shows a schematic representation in the view of a three-span terraced house, each with two Ge shots. The row house is made up of three by three superimposed spatial structures. There, unlike z. B. in industrial and exhibition buildings, the demon animality is of no importance, the neighboring three-link frame can be changed in the transverse direction of the room body by an in-situ concrete supplement in closed storey frames. In this case, the drainage channel between two adjacent spaces (see. Fig. 4) is dimensioned so large that a continuous bar is formed after casting with in-situ concrete.

Fig. 6 shows the arrangement of a parapet 54 on the right outer edge of a spatial body according to the invention I h, wherein the stepped extension profile 55 of the parapet is used to connect to the recess 56 , which can be formed in connection with an adjacent spatial body according to FIG. 4 as a drainage channel .

Fig. 8 shows the connection of a support 57 of a superordinate spatial body to a subordinate spatial body, whereby the profile 58 of the lower end of the support is adapted to the profile of the recess 56 (see FIG. 6). It is clear that the recess 56 can be designed so far that the support end of the parent room body as a whole takes place on the horizontal bottom of the recess, and the support end does not have to have a special profile.

Fig. 9 shows another spatial body III according to the invention from two prefabricated concrete components 59 , 60 , the ceiling sections are except for horizontal beam sections 61 , 62 and 63 , 64 , which are mutually supported on end faces.

The spatial body III, like the space bodies described above, forms a two-joint frame in the longitudinal direction and a three-joint frame in the transverse direction. Such a scaffold-like room body is suitable for the construction of glass houses and conservatories. They can be covered by glass roofs and glass domes 65 of any design. With a square base of z. B. 6 × 6 m with a pyramid-shaped glass construction z. B. pavilions that can be used with or without external walls for measuring sen, exhibitions, etc. It is clear that the scaffold-like room body III can also consist of two steel elements which are mutually supported on the projecting arms. The Betonfer tigbauelemente 59 and 60 can be made according to the concrete prefabricated elements 1 and 2 , Fig. 1 a, 1 b and Fig. 2 in the above manner.

The invention is not be on the embodiments limits. The expert is too diverse by this against changes, all of which are the basic idea ken of the invention use, a spatial body from raw or prefabricated building cells made up of two components zen, each in the longitudinal direction from a two-joint frames exist and put together to form the spatial body form a three-joint frame in the transverse direction.

Before standing is a free-standing pipe or prefabricated building cell for the construction of single or multi-storey buildings disclosed from a variety of such structures, the Raw or prefabricated cell according to the invention from two fer is assembled, each in Longitudinal a two-joint frame and to the building cell assembled a tri-articulated frame in the transverse direction  form. Preferably but not exclusively the prefabricated components made of concrete.

Claims (19)

1. Space as a free-standing shell or prefabricated cell for building structures from a variety of such interconnected building cells in at least one level, characterized in that the building cell is composed of two prefabricated components, each of which is composed of a two-joint frame and the building cell in the longitudinal direction form a three-link frame in the transverse direction. 2. space body according to claim 1, characterized in that the prefabricated components each from one in the we substantial horizontal, rectangular ceilings cut predetermined length and width, which match at least in their lengths and the each along their opposite one, space outer long sides of two spaced perpendicular ten supports of the same height are carried and each along their opposite others, inside the room ren long sides at the freely projecting ends of the Ceiling sections have an end face which are the two to form the spatial body Support precast concrete components against each other. 3. space body according to claim 2, characterized in that the prefabricated components are made of concrete, the End face on the ceiling section of a Fer part of a thin-walled formwork sheet made of metal or plastic with selected outer profile is formed, which ver ver with the ceiling section  is tied and on which the face of the other Ceiling section with an adapted profile. 4. space body according to claim 3, characterized in that the formwork sheet is arched in cross section forms is. 5. space body according to claim 3 or 4, characterized characterized in that the formwork sheet on the inside is provided with anchors for mounting on a Project the ceiling section into this. 6. space body according to claim 2, characterized in that the two supports at the corners of the room outer long sides. 7. space body according to claim 2, characterized in that the one support on one corner of the outside the long side and that the other Support at a chosen distance from the other Corner of the outer longitudinal side is arranged. 8. space body according to claim 2, characterized in that the ceiling sections of a room body on their Tops along their long outer sides and / or one stu each along their transverse sides fen-shaped paragraph has the same training, the with a corresponding paragraph on a ceiling cut a gutter from an adjacent room like recess forms. 9. space body according to claim 8, characterized in that the horizontal paragraphs optionally support surface Chen for suspended ceiling elements or drainage  Stone joints or in-situ concrete connecting joints or attachment points for parapets or for raised put supports of spatial bodies of a next higher one Form storey. 10. space body according to claim 9, characterized in that the supports are along their vertical outer edges Have recesses that the horizontal Ab sentences along the outer sides of the room connect. 11. space body according to claim 2, characterized in that the ceiling sections each except for narrow Ab cuts are excluded. 12. space body according to one of the preceding claims 2 to 11, characterized in that the supports ei precast concrete component one on the ceiling section limit the subsequent vertical wall. 13. space body according to one of claims 2 to 11 or 12, characterized in that at least along one broadside of the ceiling section Precast concrete element against a vertical wall closes that at one vertical end of a prop is limited. 14. Space body consisting of several at least on one floor evenly arranged spatial bodies according to one or more reren of claims 2 to 13, characterized net that between two adjacent longitudinal and / or Broad sides of two spaced apart provided at least one ceiling element is attached.   15. space body according to claims 8 and 9, characterized characterized in that adjacent contiguous paragraphs along the long and / or broad sides of adjoin two or more in one plane drainage joints to accommodate form adapted drainage channels. 16. space body according to claim 8 and 10, characterized characterized in that four contiguous, one Column-forming supports of four spatial bodies together a vertical recess for a vertical form the right drainpipe. 17. space body according to one or more of the preceding Claims, characterized in that the cover surface the prefabricated concrete components from their interior their outer longitudinal sides slightly (approx. 1%) and the highest point of a room body along the abutting edge between the concrete tig components. 18. space body according to claim 2, characterized in that the supports of a frame body with the supports of a single prefabricated concrete component to form egg ner projecting surface (balcony parapet) connected is. 19. Process for the production of a spatial body according to Claims 2 to 18 characterized in that the four prefabricated supports in a formwork direction to be used that a common Formwork table for the two ceiling sections of the room body has that in the formwork table the flat Formwork sheet as formwork separating element for  Subdivision of the two ceiling sections inserted and to form the two ceiling sections and Concreting the ceiling sections to the supports of the Formwork tables are poured with concrete, the flat formwork separating element with selected external pro fil to which a ceiling element is firmly concreted.