DE3035698A1 - Movable lattice structure building framework joint - has flattened lug head inside narrow topped nodal piece mounting groove - Google Patents

Abstract

A large number of bars converging at varied angles are attachable by hinged joints to each nodal piece, in a system for mobile architectural structures, to enclose areas and/or to provide additional spaces. Each nodal piece (2) comprises a bearing unit with a mounting groove (17,18) or more than one, of reduced cross-section at its opening (28). The hinge joint consists of a pin (23) connectable to a bar (5), with flattened head (22) for insertion in the groove through this narrowed opening, and turned for form-locking in position. The nodal piece can consist of several fixable discs (A,B,C) with complementary cross-sectional groove segments.

Description

Description The invention relates to a construction system for building of mobile, temporarily usable architectural structures for the demarcation of rooms and / or to create additional areas, consisting of node connections and truss rods, with a larger number of at arbitrary angles of incidence mutually extending rods can be connected to a respective node piece by means of joints is.

Construction systems streamline the operations involved in building architectural structures are necessary. They-simplify both planning and manipulation as well as the structure and can be rebuilt, i.e. reused. Opposite to an individual, handcrafted construction, these systems have many more practical, seldom also has aesthetic advantages. The construction systems of the initially described Art consist of a limited number of coordinated system parts, with where the greatest possible variety of different structures, such as level Flat structures for the delimitation of spaces or spatial one- or multi-dimensional Constructions like buildings can be built for different purposes. A particular A system can represent a number of components, whereby the system content is all the more The higher the fewer different system parts, the fewer parts there are in total and the more diverse the possibilities for building different structures (variability) are. The most important requirements for systems of the type described above are: Simple assembly of the system parts, logical order of the parts during assembly, high strength, low weight, low volume, aesthetics and functionality.

DE patent specification 2 421 758 is a construction system of Type described at the beginning became known which through the articulated Linking the truss rods to a junction piece increases the variability Construction of architectural structures. The previously known construction, however, has the disadvantages that the system comprises an increased number of different components, so that the assembly is difficult because difficult assembly work to be carried out are. Since the assembly also requires considerations in which order the parts are to be assembled, skilled workers are required. Other disadvantages of the known Ronstruktionssystem are that the variability thereby it is considerably restricted that the hollow sphere serving as a supporting base body only allows the arrangement of framework bars at certain angles to each other, if the bearing shells with the ball heads are screwed into certain predetermined holes are: or in certain planes if, according to the second embodiment, slots are intended to accommodate hammer heads. The funnel-shaped mouth of the bearing shells allows a certain angular movement of the truss rods, but larger Deflections the transfer of bending moments into the threaded shaft of the ball head screw not be avoided, so that in addition to the compressive and tensile forces also bending moments which contribute to premature wear of the structure. The requirements for high wear resistance when re-used are therefore of the known construction is not sufficient.

Another disadvantage of the known construction system is that - that due to the many connecting parts used, the weight and volume of the overall system can be increased noticeably, so that there are limits to the dimensioning of the rod length and only smaller room constructions can be created.

In addition, it is to be regarded as a disadvantage that the individual Screw connections are visible at the joints, so that the aesthetics of a created construction suffer from.

The invention is therefore based on the object of a construction system of the type mentioned to create, which a minimal number of different Has components, can be created with a minimal number of components, a simple and quick assembly with low demands on the intelligence when considering the order in which to assemble the parts, allows, which has high wear resistance, light weight and a has a low volume The construction system is also intended to provide increased variability in the construction of various structures allow to look shapely and an elevated Stability of the flat or three-dimensional space grids created as supporting structures enable.

This object is achieved according to the invention in that the knot of a bearing body with at least one circumferential bearing groove with a reduced size Muzzle cross-section is formed and that the joint can be connected to the rod by one Pin is formed with a flattened joint head, which is through the muzzle cross-section insertable into the bearing groove and form-fitting after a rotary movement in the bearing groove is movably lockable.

Further advantageous refinements emerge from the subclaims.

The construction system according to the invention has only two system parts on, namely the knot pieces and the rods. The assembly of these two system parts takes place in a very simple way in that the screwed into the rod ends The pivot pin is inserted into the bearing grooves and in the radial grooves with a Turned in a quarter turn be so that the spherical joint heads form-fitting but angularly movable are clipped into the bearing grooves. Any screw connections or adjustment work omitted, so that the assembly of the system is significantly simplified and none Requires skilled workers. The space grids created by means of the system according to the invention always consist of triangles that are put together to form irregular pyramids and therefore achieve a very high level of stability with the lowest possible weight. In The grid structures created can be inserted, for example, cover plates in such a way that the construction system itself is no longer visible. Through different dimensions of the bar lengths can be flat space grids, e.g. as supporting structures for ceiling structures Space grids serving with very high spans, as well as curved space grids first Order, e.g. for tall, vertical, wide information walls that are in the floor plan describe a quarter-circle arc, as well as curved space grids of the second order, E.g. geodetic domes or spherical houses with the largest diameter can be built. Even all other conceivable structures have the largest dimensions and large volumes to be realized with the lowest possible cost and high stability.

Since the node pieces connectivity in all directions of the XYZ plane allow designers to create more three-dimensional Space grids have no restrictions on specific levels, grids, grids or directions imposed. The variability is achieved by the construction system according to the invention contrary to most existing building systems, where the variability is only on the different dimensions of the components within a particular Planning grid or space grid was related, with above all right-angled grid the construction and planning activities dominated, increased by the fact that in addition to the Changing the dimensions also the angles at the junctions of the Components can be varied.

Further features, details and advantages of the invention result can be derived from the following description of a preferred exemplary embodiment the drawing. 1 shows a schematic representation of a two-dimensional one Lattice structure; Fig. 2 is an enlarged sectional view of the invention System parts; 3 shows a sectional view along the line III-III according to FIG. 22. 4 shows an exploded view of the bearing washers of the node piece and a partial top view; and FIG. 5 shows a cross section through a connection profile which is used for receiving Surface construction elements is suitable.

The two-dimensional shown in Fig. 1 in a schematic manner Lattice 1 consists of node pieces 2 and truss rods, whereby it is the rod 3 by a spacer bar, for bars 4 and 5 by horizontal connecting bars and the rod 6 is a diagonal bracing. Bars 4, 5 and 6 are on their ends are provided with pegs which clip into the bearing grooves of the node pieces 2 will. The spacer bar 3 is not shown in FIG. 1 in a manner described later recognizable threaded bolts that screw the individual bearing washers of the node pieces 2 stick together. Since the diagonal bracing 6 in the direction of the double arrow 7 in different vertical planes and in the direction of the double arrow 8 in different Angular planes can be pivoted, any angle of the diagonal bracing can be set set opposite the horizontal connecting rods 4, 5 Will e.g. instead of the horizontal connecting rods 4 and 5 profile rods 9 according to Fig. 5 used, the load-bearing space grille can be achieved by inserting cover plates 10 can be covered, or closed roof or ceiling constructions can be used produce. The profile bar 9 also allows the use of wall elements for Department of certain rooms and the invisible routing of power lines 12 and like

Based on Fig. 2 it can be seen that the knot according to the invention 2 forms a spherical segment and both in the equatorial plane 13 and in one Intermediate level 14 is divided, so that three bearing washers Ay B, C result. the The bearing washers A, B, C are connected using a hexagon socket screw 15, which in the illustrated embodiment in a coupling piece 16 with an external thread is screwed, which in turn is screwed into the spacer rod 3. at the hexagon socket screw 15 can also be dimensioned directly be screwed into the end of the spacer rod 3.

The bearing washers A, B, C of the junction piece 2 are simple die-cast pieces, which are made with simple tools, so that complicated machining the bearing grooves and the like.

not applicable.

This L'gerrillcn 17, 18 result from the assembly of the Bearing washers A, B, C. From Figures 2 and 4 it can also be seen that the bearing washer B has additional grooves 19, 2G which run in the radial direction, with a narrow web 21 between two adjacent grooves (see Fig. 4) stop. It is of course also conceivable that the bearing washers A and C have corresponding grooves. These grooves prevent that the joint head 22 can rotate sideways out of the bearing groove.

In the right part of Fig. 2 is also the horizontal connecting rod 5 shown with a screwed-in connecting pin 23. On the top of the connecting pin 23 is in a recess 24 as a locking device the end push rod 25 is slidably mounted and preloaded by a compression spring 26 is. In the (jez (. 'I <; t (.n Ixlrstllunryy) the push rod is in relation to the Fig. 2 moves against the leather force of the compression spring 26 to the right until the Stop 27 has applied against the end of the horizontal connecting rod 5. Through this has been achieved that the swivel head 22 has come free, so that this at his Top and bottom flattened joint head through the mouth cross section 28 can be introduced into the bearing groove 18. After a quarter turn around the axis 29 the joint head 22 is inserted into a preselected groove 20, with the reason the groove of the bearing washer B or the opposite bottom of the bearing groove of the bearing washer C against the outer surfaces of the spherical joint head to rest come.

The resulting position of the ball head is shown in phantom in FIG shown. The spherical joint head is positively received in the running groove and enables movement of the horizontal connecting rod both vertically to the plane of the drawing as well as in de; Drawing plane. As soon as the spherical joint head 22 is locked in a recess 20 of the bearing groove 18v can the push rod 25 can be released again so that the front part of the push rod is under the Influence of the spring force of the spring 26 laterally next to the joint head in the bearing groove 18 introduces and thus prevents the joint head from accidentally moving again can unscrew from the bearing groove.

The assembly of the diagonal struts and the connecting rods is Very easy, since a screw connection or the like.

does not take place, but the connecting pin only in the associated groove of a bearing groove is clipped in will that in the FIG. 2 illustrated embodiment of the toad piece according to the invention has three major main levels of connectivity that are two-tiered in most Trusses occur. While the plane of the bearing groove 18 all rods of the outer or lower or outer or inner layer of the framework connects, with straight trusses all bars in one plane, with curved trusses roughly lie in the same plane with only slight deviations, connects the smaller Bearing groove 17 all diagonal struts between the upper and lower layers. The vertical distance between the two layers is determined by the rod 3. This as Spacer serving rod 3 can also be omitted in space frameworks if the diagonal struts this task with takeover. The formation of the note piece according to the invention in spherical shape allows for rods of the same length that are connected in different directions always the same axis dimensions.

Should be for a three-layer structure or a special shape, for example a knot may be required, starting from the equatorial plane 13 and following both should allow diagonal bracing above and below, then this is one Knots from the bearing washers Ä and B can be easily put together in the order A-B-B-A, with two rods as spacers between the layers of the two directions can be screwed to a stud screw running through the knob.

The continuous bearing grooves allow a lot of connections as well especially the smallest connection angle of two rods that are next to each other in the same Running bearing groove. About the articulated connection according to the invention is also achieved that no buckling forces can occur as long as the permissible angle is not is exceeded. Therefore, despite the smallest cross-section, the connection is on the tightest point.

Only tensile and compressive loads can be applied, but no bending forces or torques are transmitted. The flattening shown in FIG. 2 in the lower part 30 of the bearing washer C is therefore chosen so that the node 2 does not have the Level of the horizontal connecting rod 5 protrudes downwards.

Claims (15)

Construction system for mobile, temporarily deployable architectural Structures. Claims' 1. Construction system for the construction of mobile, temporarily deployable architectural structures for the delimitation of spaces and / or for creation additional areas, consisting of junction connections and truss rods, with a larger number of mutually extending at any angles of incidence Rods can be connected to a respective node piece by means of joints, d a d u r c h g e k e n n n z e i c h n e t -t that the node piece (2) from a bearing body with at least one circumferential bearing groove (17, 18) with a reduced mouth cross-section <28) is formed and that the joint can be connected to a rod (5) Pin 123) is formed with a flattened joint head (22), which through the mouth cross-section (28y can be introduced into the bearing groove (18) and, after a rotary movement, in the bearing groove is positively movably lockable. 2. Construction system according to claim 1, characterized in that the junction piece (2) of several concentrically fixable bearing washers (A, B, C) is formed, which complementary cross-sectional segments of bearing grooves to be formed (17, 18). 3. Construction system according to claim 1 or 2, characterized in that that the node division (13, 14) is provided in the bottom of the bearing groove. 4. Construction system according to one of claims 1 to 3, characterized in that that the node piece (2) composed of several bearing washers (A, B, C) the Has the shape of a ball or a ball segment and that the bearing grooves (17, 18) are arranged in parallel spherical planes (13, 14). 5. Construction system according to one of claims 1 to 4, characterized in that that a bearing groove (18) in the equatorial plane (13) of the spherical node (2) is arranged. 6. Construction system according to one of claims 1 to 5, characterized in that that the bearing grooves (17) in planes which are mirror-symmetrical to the equatorial plane (13) are arranged. 7. Construction system according to one of claims 1 to 6, characterized in that that in the bearing groove base (17, 18) radially extending grooves (19, 20) are provided are, into which the head (22) of the joint can be rotated. 8. Construction system according to claim 7, characterized in that the grooves (19, 20) are designed to be complementary to the joint head, wherein a web (21) is present between adjacent grooves. 9. Construction system according to one of claims 1 to 4, characterized in that that the bearing washers (A, B, C) by means of a threaded bolt that extends axially through them (15) are screwed together, the shaft of which is used to connect a spacer rod (3) protrudes from the outer bearing washer (A), which is flattened at the pole 10. Construction system according to claim 1, characterized in that the joint head (22) is flattened by a Sphere is formed. 11. Construction system according to one of claims 1 to 10, characterized characterized in that a locking device (25) is mounted on the joint head, which blocks a reverse rotation of the joint head clipped into the bearing groove (18). 12 construction system according to any one of claims 1 to 11, characterized characterized in that the locking device consists of a spring-loaded (26) push rod (25) is formed, which laterally from the flattened joint head into the bearing groove (18) engages and can be withdrawn against the spring force to insert the joint head (22) is to release the rod end. 13. Construction system according to one of claims 1 to 12, characterized characterized in that several bearing washers with complementary bearing groove segments are stacked on top of each other and connected by means of a screw connection, one threaded spindle with ends protruding from the disks for connection of spacer rods. 14. Construction system according to one of claims 1 to 13, characterized characterized in that the bars (3, 4, 5) are formed by profile bars, which at least a flange engaging on its jacket for attaching surface construction elements (10, 11). 15. Construction system according to claim 14, characterized in that that the flanges are diametrically arranged T-profiles