DE2428038A1 - Flexible prefabricated-element building structural system - with connecting panel-shaped components between columns and overhead trusses - Google Patents

Abstract

The purpose is to dispense with the need for load bearing walls to act as principal supports for ceilings, floors and upper storeys, in a building which is flexible and architectonically viable, and uses only a small number of different prefabricated structural elements. The load bearing elements are vertically installed supports, or columns, and trusses running parallel to each other, laid on top of them, with intervening panel-type components as connecting units. Columns and trusses are pref. made of glued-layer wood, and the columns may be cruciform-sectioned, and have a component with a base plate which can be adjusted by screws: the top end may be forked, for truss accommodation. The panel units may be box-beams with chipboard-planked wooden beams on both sides, partly filled with glass wool or other insulating materials.

Description

Construction System The invention relates to a construction system for buildings to be constructed using element construction.

Usually residential and utility buildings, such as factories or Office buildings are still built today in such a way that massive brick walls are built and / or concreted, which the load of the building parts located above them, i.e. the load of the ceilings and other floors, with only in relatively few cases the task of a load-bearing wall every now and then is taken over by a vertical column or support that statically corresponds is dimensioned stronger. In some cases today it is already largely on the load-bearing side Walls dispensed with, so that one in the vertical direction between floor and ceiling On the first floor there are only vertical supports, instead of the outer walls In general, large windows are used and, in addition, instead of the otherwise customary massive partition walls in lightweight construction or made from prefabricated components Partition walls can be used without a load-bearing function. This construction is in particular Used in steel skeletons, but also in concrete structures, where a Correspondingly strong steel reinforcement of the individual supports or columns is made will. Even with these open "construction systems, which with regard to the room layout guarantee a far greater flexibility inside the building than the conventional one Construction with solid load-bearing partition walls are generally solid floor slabs or roof structures used, which the vertical supports in longitudinal and Connect transversely with each other to ensure sufficient static stability to achieve. Where massive ceilings are not used, there are in any case lengthways and Transverse girders or trusses are provided that give the building the required To give stability.

Construction principles similar to those for solid construction above described, are also used in so-called lightweight structures, namely regardless of whether they are made of steel, aerated concrete or wood. One Special feature of the prefabricated houses, which are essentially made using wood and the like consists merely in the fact that these im general still a larger number of diagonal struts is provided, so that ultimately the Truss technology that has been in use for centuries.

It has been shown that the use of load-bearing walls as Construction elements as well as the use of longitudinal and cross members as well as the Use of truss-like struts ultimately leads to that in prefabricated buildings too or the desired rationalization effect is not achieved in precast construction, at least not if you look for each building object according to its intended use and, if necessary, its location in the landscape which is optimal in each case and also architecturally is looking for a satisfactory solution.

On the basis of this prior art, the object of the invention is to be found based on proposing a new construction system, which with a few prefabricated construction elements comes from, and which in terms of his Flexibility and its architectural possibilities not just the previous ones Prefabricated construction systems, but also surpasses conventional construction methods.

This object is achieved according to the invention by a construction system, which is characterized in that as load-bearing elements to be mounted vertically Supports and binders that are to be placed on the supports and run parallel to one another are provided, and that the binder has to be arranged between them Components can be connected to one another.

The basic idea of the new construction system is therefore: First of all, the load-bearing function that has so far been considered essential in many cases dispense with vertical walls. In addition, as horizontal load-bearing elements only supports running in one direction can also be used, all of which are parallel run towards each other, while dispensing with the otherwise usual cross beams or binders will.

The bracing of the building is carried out with the construction system according to of the invention only by tabular components which are arranged between the binders and which form both the ceilings and the roof of the building. The horizontal forces from the associations are taken up by the clamped supports.

It has proven to be particularly beneficial if the supports and binders in a further development of the invention are made of laminated wood, since this material is light and comparatively cheap, and there is also a high dimensional stability of this material is given, which in particular after appropriate Impregnation or surface treatment is weatherproof and very has an attractive surface structure.

It has also proven useful if the supports to be installed vertically are designed as cross supports, i.e. as supports with a cross-shaped cross-section and in particular with four legs of the same length and width. This cross-sectional shape is, on the one hand, very favorable statically in relation to the material requirements and, on the other hand, leads to an optical structure of the support, which makes it appear lighter than this corresponds to their actual carrying capacity. Furthermore, the use of symmetrical results Legs that you can work with uniform partitions, their Width is matched to the width of the legs. This advantage also applies Dimensions for transverse purlins, plinths, door and window elements, etc. In particular for Enclosed buildings it has proven to be useful if each of the vertical supports has one Has the foot part that is fixed to the end of the column connected There is a footplate, preferably by means of adjusting screws screwed to it is adjustable. It is also beneficial to use the adjusting screws with the footplate a base plate is connected.

Such a foot part has the advantage that the base plate after a relatively rough alignment can be connected to a foundation plate and in particular can be poured into a recess in the foundation plate.

Only then is the support put on and with the help of the Adjusting screws aligned in their desired position. Has support at the cross it has also proven to be advantageous if the in the direction of the longitudinal axis the later to be supported on the cross trusses running leg of the support cross end below the top of the other legs so that they are at the top the cross support results in a fork-shaped receptacle for the truss.

Further details and advantages of the invention are provided below explained in more detail with reference to a drawing and / or are the subject of the claims for protection. In the drawing: Fig.l shows a perspective overview drawing of one after the building part erected according to the invention, FIG Side view of a support of the construction system according to the invention and FIG a plate-shaped component designed as a ceiling element or roof element of the construction system according to the invention.

The part of the building shown in Figure 1 of the drawing is on a Base or foundation plate 10 erected. The foundation plate 10 is generally consist of concrete with a corresponding reinforcement and can also, for example the ceiling of a conventionally built basement for the building to be built Be building. The construction of a building using the elements of the inventive The construction system begins with the fact that krew supports 12 are erected.

The cross supports 12 have, as is particularly clear from FIG is, a foot part 14, which is constructed as follows: In the lower end of the Cross support 12 two steel plates 16 arranged in a cross shape to one another are embedded, with the help of several continuous dowels 18 firmly with the associated legs the cross support 12 are connected. The lower ends when the cross support 12 is installed the steel plates 16 are down over the legs of the cross support 12 and are welded at their free ends to a footplate 20 or in another appropriately connected. The footplate 20 is preferably also made of Steel and is connected to a base plate 24 via spacer and adjusting screws 22.

A cross support 12 is installed in such a way that initially the base plate 24 is attached to the foundation plate 10. Is it at the foundation slab 10 around a concrete slab, as shown in FIG shows, first recesses 26 left free, in which a few days before the erection of the building the base plates are cast. If the concrete is sufficient then Has reached strength the cross supports 12 erected, with a precise alignment of the cross supports with respect to the already fixed Base plate 24 takes place with the aid of the adjusting screws 22, on which the footplate 20 each cross support 12 is supported.

The upper end of the cross supports can be flat, as Fig. 1 shows. This construction is explained in more detail below.

The upper end of the cross support 12 can also, as shown in Figure 2, form a pincer-shaped receptacle for a binder 28. The pincer-shaped recording at the upper end of the cross support 12 is formed in a simple manner in that only two opposite legs of the cross up to the full height of the Cross support 12 are led up, while the other two legs and the Middle piece already end before, preferably at a distance from the Surface of the other two legs, which is equal to the height of the one to be placed on Binder 28 is.

As soon as all cross supports 12 are set up and aligned and as soon as then the tie 28 'is placed on the cross supports 12 or in the Pliers-shaped receptacle are inserted at the upper end of the same, in which they are screwed and the like can be secured, is the supporting structure for a one-story Building or one floor completed. The supporting structure consists only of cross supports 12 and girders 28, which at this stage of the construction of the building are one behind the other, form aligned gates. The stable goals made of cross supports 12 and trusses 28 limit vertical and horizontal fields, which in a subsequent construction step be filled with plate-shaped components. These plate-shaped components can for example be roof, ceiling, window and door elements.

be.

A panel-shaped component that serves as a roof or ceiling element is shown in Figure 3 of the drawing and as a whole with the reference number 30 designated. It can be seen that the ceiling element 30 is a box girder. Of the Box girder is constructed from wooden beams 32, which are covered on both sides with chipboard 34 are planked. The voids between the wooden beams 32 and the chipboard 34 are with packs 35 made of glass wool and possibly other materials for Sound and heat insulation filled, for example with softboard and / or with annealed sand. The wooden beams 32 run when the ceiling element 30 is installed across the girders 28. At the longitudinal edges running parallel to the girders 28 The ceiling elements are also made of solid wood for stiffening between the chipboards 36 provided and on the underside of the lower chipboard longitudinal bars 38. The longitudinal bars 38 are also used to attach an acoustic formwork, for example can consist of fir or spruce boards and are at such a distance attached to the longitudinal edge of the ceiling element 30 that with a fully assembled ceiling apart from the two outer binders, each of the binders 28 with its upper end between two longitudinal rods 38 is supported, as is also clear from Figure 3. Man recognizes that the ceiling elements 30 are placed on the girders 28 in such a way that they butt against each other in the middle. The ceiling elements are in this Position by means of iron clips 40 and screws 42 against each other and with respect to the associated Binders 28 secured.

The length of the ceiling elements 30 is preferably chosen so that this extends over the entire length of the tie 28 and thus, for example, over the the entire width of the building to be constructed. However, it is also possible to form the ceiling elements 30 in such a way that a plurality of ceiling elements in each case along the girders 28 butt against each other. Which length in detail for the ceiling elements is chosen is largely a transportation problem.

The roof elements differ in the construction system according to the invention in the case of buildings with a gable roof and with the usual tile roofing, this is the only way of doing this of the ceiling elements that an air space between the upper chipboard 34 and the pack 35 is provided which is ventilated to obtain a cold roof. If, on the other hand, a building is used using the construction system according to the invention to be erected with a flat roof, those are described with reference to FIG Ceiling elements 30 on their upper side additionally with a complete flat roof structure Mistake. This flat roof structure comprises in detail bevels on their inside Edge strips 44, which on the top of the ceiling element 30 or on the top of the upper chipboard 34, and which along the entire edge of the Ceiling element are provided. One of the edge strips 44 is indicated in FIG.

The flat roof construction further comprises a film 46 which the entire top of the ceiling element 30 to be used as a roof element is watertight concludes. Due to the measures described, the top of each roof element Trough-shaped and can now in the usual way if necessary be filled with a bulk fill. The / connection of the individual roof elements along their transverse sides is done with the help of profile rails, for example can be made of asbestos cement and which form the space between each Cover roof panels or the joint between them and with the help of screws are attached to the ties 28 below.

From the above description it is clear that when erected of buildings with a flat roof using the construction system according to the invention a roofing of the construction site can be achieved within a very short time, and that the further expansion of the building can then take place under the protection of this roof, which brings decisive advantages.

The plate-shaped components of the construction system that serve as wall elements according to the invention are constructed in a similar way to the roof and ceiling elements, So again in the form of box girders made of chipboard planked on both sides Wooden beams, filling the cavities as well as attaching further layers on the outside of the chipboard with regard to thermal insulation and sound insulation as well as with regard to the necessary vapor barriers for external walls in the usual Manner and taking into account the usual specialist knowledge. Is essential it is, however, that the wall elements have the same edge finish on all sides, so that the connection to surrounding components, such as supports, trusses, etc. can be done in the same way.

In addition to the components already mentioned, the inventive Construction system still thresholds 50 and transverse purlins 52, on which, for example Door and window elements can be hung, if they are not already there have a suitable frame. Also, depending on the factual or architectural requirements require additional wooden components, such as the beams 54 of the plank wall shown in Figure 1 or the roof battens 60 for attaching the tiles on top of the roof elements 30, which, like the ceiling elements, are attached to trusses are attached, which as roof trusses 28 'in the same way are designed like the girders 28 of the ceiling, but which are inclined and with the ties 28 are mortised in the usual way, as is also clear from FIG will. It goes without saying that in the construction system according to the invention suitable vapor barriers between the roof battens 60 and the top of the roof elements 30 and the like can be provided, as indicated by the layer 56 in FIG is. Finally, when using the construction system according to the invention the use of permanently glazed skylight windows 58 has proven particularly effective. The skylight windows serve at the same time as a safeguard for the tie 28 against tilting the same.

The advantages of the construction system according to the invention come in particular then to carry when the main structural elements, namely the cross supports, the roof and ceiling elements and the plate-shaped components according to a predetermined one Grid dimensions are dimensioned. A length in particular has proven to be a grid unit of 30 cm proven. The cross supports are preferably designed so that they have a base of 30x30 cm, with the incisions formed by the corners of course remain unconsidered. Preferably the distance is between the supports perpendicular to the truss axis are 240 cm, i.e. the central axes of the supports are preferably 270 cm apart. Accordingly, the roof and ceiling elements preferably have a width of 270 cm, while their length, such as mentioned, is preferably chosen equal to the length of the continuous binder. It it goes without saying that the width of the roof and ceiling elements for special cases is still can be selected lower, but always adhered to the grid dimension of 30 cm shall be.

With the mentioned support spacing, there are favorable results in the facade Window or door dimensions and reasonable room dimensions, especially if In the case of residential construction, the column spacing in the longitudinal axis of the truss is 420 cm.

The width of the wall elements is also the grid dimension of 30 cm customized. A width of 60 cm has proven to be favorable, especially when the inner wall elements should abut one another to form a visible joint. Such a joint should also occur on the inside of the outer wall elements. A grid dimension of 60 cm is already used today for many built-in furniture, such as wall units etc.

usual so that the joints between the wall elements, in particular in connection with built-in furniture, give the rooms a harmonious overall appearance.

The width of the individual legs of the cross supports 12 is preferred set to 12 cm, as this value is suitable for attaching wall elements, Thresholds and purlins have proven to be very beneficial. The binders also preferably have a width of 12 cm, so that at the upper end of the cross supports 12 a fork-shaped Recording for the binder can be formed. The height of the truss will be accordingly the width of the room to be spanned, whereby in residential construction with construction times from 6 to 8 m results in a truss height of about 36 cm. The recording will be based on this measure prepared at the upper end of the cross supports 12 and this measure is generally also not undercut, even if the room width to be spanned is smaller is. In the case of larger spans, the height of the girders is chosen to be correspondingly larger, but what the Functionality of the construction system not impaired, since the roof and ceiling elements are on top of the truss anyway be put on.

However, it has also proven to be favorable, the cruciform cross-section keep the support up to its upper end and place the ties on the flat ones to put on the upper ends of the supports.

In this configuration of the upper end of the support, which initially Once the production of the support is cheaper, you can choose between the individual Binder skylight frames are used, the vertical legs of which are dovetail-shaped can be mortised with the side surfaces of the girders. Secure the skylight frames the trusses against tipping and at the same time form an essential design element the outer wall of the building constructed according to the construction system according to the invention.

Another advantage can be seen in the fact thatSiauhrch the insertion of skylight frames between the trusses for supports or cross supports with a flat top, regardless of the height of the truss, resulting from constructive Reasons can change, exterior walls with a uniform height to the lower edge the binder surrendered. The continuous use of skylight frames results in Furthermore, the visual impression of flat roof buildings is: a floating roof, which is particularly evident at night with illuminated windows.

The use of skylight frames made in the manner described are dovetailed with the girders, brings one at the same time This makes assembly considerably easier, as the supports are immediately aligned very precisely can be, and depending on the width of the building, sometimes proportionately severe and bulky roof or ceiling elements then easily into the already aligned Binder fields can be inserted.

Also with regard to the foot part of the cross support shown in FIG Modifications possible. In particular, it can prove to be beneficial on the base plate 24 and the adjusting screws 22 directly into the foundation plate to pour in and / or to provide them with suitable standing areas. One special advantageous solution is also obtained when two adjusting screws through the Ends of a U-shaped steel bracket are formed, which goes deep into the foundation slab can be let in, as is clear from Fig.1. It has also proven to be Proven advantageous if the dowels or dowels 18, which the steel plates 16 of the foot to connect with the legs of the cross support 12, are shorter than the legs are wide, as there is then the possibility of the ends of the holes in the cross support 12, which receive the dowels 18, with so-called knothole patches glue out so that the dowels 18 are no longer visible from the outside and the overall impression do not bother.

In general, the construction of the foot part described allows Cross support practically an invisible restraint of the same, since the foot part is complete disappears in the recess of the foundation plate. Nevertheless, the supports can Easily dismantled as the adjusting screws are on the outside of the building are freely accessible after removing the cover plates and on the inside can be exposed at any time by removing the floor covering.

From the above description it is clear that the inventive Construction system with the use of fewer prefabricated components great flexibility made possible because walls are completely omitted as load-bearing elements and there for the Transverse bracing of the building, only roof and ceiling elements are used, which can also be largely prefabricated, since the individual objects only the length of the roof and ceiling elements changes, while the width changes accordingly the grid units is given.

Overall, the construction system according to the invention thus enables a quick and comparatively cheap construction of buildings of all kinds, in particular of single-storey buildings and of buildings with flat roofs without any individual planning would narrow according to the respective circumstances.

Claims (19)

Patent claims: .construction system for buildings to be constructed using element construction, characterized in that supports to be mounted vertically as load-bearing elements (12) and trusses (28, 28 ') can be connected to one another via panel-shaped components (30) to be arranged between them are. 2. Construction system according to claim 1, characterized in that the supports (12) and the girders (28 * 28 ') are made of laminated wood. 3. Construction system according to claim 1 and 2, characterized in that that the supports are designed as cross supports (12). 4. Construction system according to claim 3, characterized in that the cross supports (12) have a cross-shaped cross section with four equally long and have legs of the same width. 5. Construction system according to one or more of the preceding Claims, characterized in that the supports (12) have a foot part (14) have a footplate (20) firmly connected to the end of the support, which by means of Adjusting screws (22) can be aligned. 6. Construction system according to claim 5, characterized in that the footplate (20) with the end of the support (12) over two cross-shaped to each other arranged steel sheets (16) is connected to the support (12) with the help of Dowels (18) is connected. 7. Construction system according to one or more of the preceding Claims, characterized in that the upper end of the supports as a fork-shaped Recording for the tie (28) to be placed thereon is formed. 8. Construction system according to claim 7, characterized in that the legs running in the direction of the longitudinal axis of the tie (28) to be placed of the support cross as well as the middle section of the same below the other two End legs. 9. Construction system according to one or more of the preceding Claims, characterized in that the panel-shaped components (30) box girders with wooden beams (32) covered on both sides with chipboard (34). 10. Construction system according to claim 9, characterized in that the cavities between the wooden beams (32) and the chipboard (34) at least partially with packings (35) made of glass wool and, if necessary, other materials for soundproofing and thermal insulation are filled. 11. Construction system according to claim 9 and 10, characterized in that that the panel-shaped components are unventilated ceiling elements (30). 12. Construction system according to claim 9 and 10, characterized in that that the panel-shaped components are ventilated roof elements (30). 13. Construction system according to claim 9 and 10, characterized in that that the panel-shaped components are roof elements (30) for a flat roof, and that they have a circumferential frame bevelled on their inside on their upper side Edge strips (44) have, and that their top is waterproof by a film (46) is completed. 14. Construction system according to one or more of claims 9 to 13, characterized in that the length of the tabular components (30) is the same the length of the ties (28, 28 ') carrying them. 15. Construction system according to claim 9 to 14, characterized in that that along the long sides of the panel-shaped components (30) perpendicular to the wooden beams (32) extending and connected to these stiffening longitudinal timbers (36) are provided are. 16. Construction system according to claim 5 and 6, characterized in, that the foot part (14) of the supports (12) comprises a base plate (24) which is connected to the The footplate (20) is adjustable via the adjusting screws (22). 17. Construction system according to one or more of claims 5, 6 and 16, characterized in that two adjusting screws (22) through each the ends of a U-shaped steel bracket are formed. 18. Construction system according to one or more of the preceding Claims, characterized in that transversely to the girders (28) on the supports (12) overlying skylight frames or the like. are provided. 19. Construction system according to one or more of claims 18, characterized in that the vertical side surfaces of the binder (28) and the vertical side legs of the skylight frame or the like. via a dovetail connection are connected to each other.