DE3641349C2 - Construction support - Google Patents

Description

The invention relates to one another telescopically the slidably arranged outer tube and inner tube existing building support, with the outer pipe in axis undercut grooves for receiving of fastening clamping screws.

A building prop of the type in question is known from DE 26 60 317 B1, the outer tube being an has a substantially rectangular cross section. The protrude longer legs of this cross-sectional profile the one cross leg by a larger amount and possess holes on the overhang for connecting struts. Furthermore, the protrusions are notched at the ends and are used to connect to a top chord and one Lower chord, so that an off-center load introduction the construction support is available. The outer cross leg of the outer tube assigned undercut, paral grooves running towards each other are used for attachment of company signs, advertising media, barriers, Hooks etc. It is obvious in this regard Lich around no load-bearing components. Even if you do this wanted to assume that there would be no central burden on the construction support. The decentralized load transfer tion has a detrimental effect on the buckling stone construction props. Then there are such buildings support little suitable, best of several construction supports existing, easily implementable scaffolding.

The invention is therefore based on the object Generic prop in such a way that in addition to components that are easy to handle and high Stiffness is present and that the creation of a  adaptable formwork scaffolding from a few, many mutually usable components is possible.

This task is solved with a generic Construction support through system running on both sides of the grooves surfaces for the central connection of with the fasteners supplementary struts to be determined.

As a result of such a configuration, the use value is a generic building prop increased. Both of them Allow contact surfaces running on the grooves a central connection with the fastening additional bolts to be fixed the one with a higher load-bearing capacity of the construction support. It it is therefore possible to manufacture the outer tube from aluminum opposite. A steel prop is then located the permissible load capacity for one made of aluminum manufactured construction support about twice as high at approx the same weight. This fact allows bigger ones Support distances. Furthermore, only 30-50% need of the props that have been used so far and to be transported. Then it is possible adaptable formwork scaffolding from a few, many to create usable components. The compl tongue struts are preferably used for heights from 4-11 m. Compared to the known frame supports and Scaffolding is the amount of buckling stiffening a support with a design according to the invention placed formwork scaffold significantly less, because the free, unsupported kink length an outer tube a construction prop made of aluminum approx. 3.5 m is to deduct a permissible load of 50 KN The formwork framework created accordingly det the advantages of a high working speed when assembling and disassembling non-stiffened  Construction supports with the advantages of the inevitable kink stiffening. The supplementary struts can then stu can be moved along the outer tube. The means advantages for any work to be provided platform. In addition, this brings flexibility ability to walk or drive inside the formwork scaffolded. This also proves to be favorable if the Construction supports stand at different levels. Furthermore, easy to assemble work scaffolds create, consisting of individual building supports and they combine complementary striving without additional strength or additional moments occur in this formwork system The prepared work scaffolds can be e.g. conveniently to the installation site using a crane bring. They can also be easily implemented the. An advantageous further development is through a essentially square outline of the outer tube with a groove starting from each side of the square see such that on both sides of the groove flat contact surfaces Chen are provided for the supplementary struts. Demge four are in a uniform circumferential distribution assigned grooves on the outer tube with these assigned planar contact surfaces for a central, large area support of the supplementary struts. Such one Floor plan of the outer tube allows work scaffolding with to create a rectangular floor plan, also connected with a central load transfer.

It should also be emphasized that the molded from the wall material of the outer tube Grooves the outer surface of the with an adjustment thread equipped inner tube leads. The latter is therefore wobble-free received and enabled by the outer tube nevertheless a slight height adjustment. The same in uter circumferential distribution arranged groove bottom leads  thereby a favorable support of the lateral surface of the inner tube to achieve an overall stiffness Construction support.

It then proves advantageous that one on the Adjustment thread of the inner tube their contact position at the front end of the outer tube of a counteracting spring action in the release position movable pawl is engaged, which is on Height of the entry slot of the groove extends. The groove therefore allows in addition to the inclusion of the fastening Tensioning screw also pivoting the pawl into it Release position by giving the necessary clearance for this jack forms. The buckling stiffness of the anmel Construction prop according to the invention can therefore be used over the entire length are kept approximately the same size.

This increases the area of application of the prop eats that a front end of the outer tube with a head plate is equipped, the through holes for the outside pipe connecting screws. Reaches the maximum Length of a prop not enough so you can see the outside pipes of two construction supports on the head plates together connect with inner tubes arranged at the ends. On in this way you get a double spindle travel. This is with a corresponding formwork scaffold advantageous to submerge beams and the whole formwork scaffold unassembled with a ceiling formwork to move laterally.

The area of application of the prop is still there by enlarged that the top plate has a push-through hole for the inner tube. That way it is possible, a single outer tube two with external thread assigned inner tubes.  

Then it proves advantageous that the supplement strive to be part of a connecting two building supports Framework. Such frames stabilize several Construction supports of a formwork scaffold in their position. In addition, the frame can be used to support a walk-in Serve scaffolding covering.

The easy assembly of the supplementary struts or the Frame is made possible by the fact that the fastening Tensioning screws, equipped with a hammer-like head tet, rotatable in the groove to the rear grip position and are loaded by a spring in the tensioning direction. In front mounting the frame are the mounting clamps screw aligned so that their hammer head into the Groove can occur. During the subsequent clamping process the hammer head is turned 90 ° into the Rear grip position.

The supplementary struts are against lateral displacement secured by the edge of the own flat contact surfaces across the shoe. This measure also brings a centering effect Assemble the supplementary struts by removing the edge Claws over the edges of the flat contact surfaces fen.

The invention is illustrated below with the aid of a drawing clear embodiment explained. It shows

Fig. 1 is a view of a means of the inventive props he presented formwork scaffolding,

Fig. 2 is a top view of the shuttering framework,

Fig. 3 in an individual representation a view of a construction support,

Fig. 4 shows the section along the line IV-IV in Fig. 3,

Fig. 5 is a section, along the line VV in Fig. 3

Fig. 6 is a fragmentary view of the construction support in the region of the adjusting nut engages under pawl,

Fig. 7 is a longitudinal section through Fig. 6 in the region of the latch,

Fig. 8 is a cross section of two through the outer tube of the construction support with ver tensioned supplement strut framework,

Figure 9 is also a cross section through the outer tube in dash-illustrated single-complement struts punctured.,

Fig. 10 is a view of the supplement struts having frame,

Fig. 11 is an end view of the frame facing the shoe,

Fig. 12 a plurality of frames of varying length in view,

Fig. 13, the compounds obtainable by means of the illustrated in Fig. 12 Frame column grid,

Fig. 14 is a view of a formwork with outer tubes screwed together on the head plates and

Fig. 15 also a formwork scaffold with different lengths, screwed together on the head plates outer tubes, with the foot-side inner tubes are supported on different levels.

The building support has an outer tube 1 and an inner tube 2 which is telescopic to it. The insertion end 2 'opposite end 2 ''of the inner tube 2 is based on a base plate 3 . Both the inner tube 2 and the base plate 3 are made of aluminum and are connected to one another by means of a weld 4 . The outer surface of the inner tube 2 is equipped with a trapezoidal thread 5 on which an adjusting nut 6 runs. At its insertion end 2 'of the inner tube 2 facing end, the adjusting nut 6 forms a flange 7 with an upstream ramp 8 . At the other end of the adjusting nut 6 , two diametrically opposed rotary cams 9 and two intermediate cams 10 are provided. The rotary cams 9 and the impact cams 10 are arranged in the same angular distribution and are made of the same material from the adjusting nut.

The outer tube 1 , which is also made of aluminum, has a polygonal plan, and indeed an octagon has been selected, see in particular FIGS. 8 and 9. Two opposing octagonal sides of this profile are longer and are at right angles to one another. From these four sides of the octagonal profile extending in the axial direction of the outer tube, undercut grooves 11 , which grooves from the wall material of the outer tube 1 z. B. are formed by extrusion. From Fig. 7 shows that the outer surface of the inner tube 2 carries at the groove bottom 12th The grooves 11 have a rectangular plan, which is open to the lateral surface of the outer tube 1 via the longitudinal insertion slot S.

The adjusting nut 6 facing the front end 1 'of the outer tube 1 is fitted with a shim 13 made of plastic, to reduce the friction between the outer tube 1 and made of steel locknut. 6 The outline shape of the shim 13 corresponds to that of the outer tube. The compensating disc 13 is anchored by means of two plug pins 14 which start from the same material and enter frictionally into two diametrically opposed grooves 11 . In the middle, the shim 13 is equipped with a passage opening 15 for the inner tube 2 .

On one with a groove side of the outer tube 1 is in the region of the front end 1 'a pawl 16 ge by means of a lug 17 . The lug 17 is fixed by means of two screws 18 entering the material of the outer tube 1 . The pawl 16 is double-armed and pivots about a bearing pin 19 of the bracket 17 . The lower lever arm 20 of the pawl 16 projects beyond the compensating disc 13 and engages under the flange 7 of the adjusting nut 6 , see in particular FIG. 7. The other lever arm 21 is longer compared to the lower lever arm 20 and serves as a handle. The pawl 16 he stretches at the level of the entry gap S of the groove 11 in order to be able to pivot the pawl counterclockwise against the force of a spring (not shown).

The other end 1 '' of the outer tube 1 is a head plate 22 with a rectangular plan. In this head plate passage holes 22 'are provided to z. B. to be able to connect the head plates of two outer tubes by means of outer tube connecting screws, not shown, cf. B. two mutually braced outer tubes in Fig. 1, 14 and 15. Furthermore, the head plate 22 contains a central inner tube push-through opening 22 ''.

If the construction support described above is used as a single support, the adjusting nut 6 can be whirled on the thread 5 of the inner tube 2 in order to achieve a rough adjustment. This is only possible because then there is not yet the grip by the pawl 16 . After completion of the rough adjustment, the inner tube 2 is to be pushed into the outer tube until the flange 7 acts on the pawl 16 . About the ramp 8 of the flange, the pawl 16 is pivoted against the spring load. After the flange 7 has stepped against the compensating disc 13 , the pawl 16 can pivot back spring-loaded to achieve the grip, the pawl underpinning the flange 7 with its hook end 20 '.

A formwork scaffold can also be created using several construction supports. Supplementary struts 23 , 24 are required for this purpose, which are part of a frame 25 connecting two construction struts. In the execution example, the supplementary struts 23 , 24 form the two parallel to each other, longer spars of the frame, which emanate from the supplementary struts connecting shoes 26 . The supplementary struts 23 , 24 step with their ends against the vertically aligned shoes 26 and are fixed there by welding. For stabilization extend in the open angles between the supplementary struts 23 , 24 and the shoes 26 stabilizing webs 27 , which have a T-shaped cross-sectional profile, see FIG. 10, and are also fixed by welding on the shoes and on the additional struts .

According to Fig. 12, five different lengths designed frame 25 a to 25 e illustrated in such a way that the sitting frame 25 a is the smallest length BE. The two longer frames 25 d and 25 e are stabilized in the middle by the additional struts 23 , 24 connecting cross members 25 '.

Both sides of the groove 11 forms the outer surface of the outer tube 1 contact surfaces A. The shoes 26 of the supplementary struts 23 , 24 of the frame 25 step against them. The shoes 26 facing these flat contact surfaces A overlap the edge edges R of the flat contact surfaces A with claws 28 on the edge to achieve a centering effect.

Each shoe 26 is equipped with two superimposed sleeves 29 which face the interior of the frame. Each sleeve is secured to shoe 26 by welding. Both the sleeve 29 and the shoe 26 are penetrated by the threaded shaft of a fastening clamping screw 30 . The corresponding bore 31 for the shaft of the fastening screw 30 equipped with a hammer-like head 32 is smaller than the inner diameter of the sleeve 29th Therefore, can be supported on the shoe 26 extending within the sleeve 29 compression spring 33 , which presses against the wing nut 34 of the clamping screw 30 and the hammer-like head 32 loaded in the clamping direction. The smallest width of the head 32 corresponds to the width of the gap S of the groove 11 . Accordingly, with appropriate alignment of the heads 32 of the fastening screws 30 of the frame men 25 can be attached to the outer tube 1 so that the two heads 32 dip into the corresponding groove 11 . Only when the wing nut 34 is subsequently rotated is the head 32 frictionally entrained via the shaft, wherein it creates the undercut in the undercut groove 11 and permits tensioning. Due to the longitudinally oriented grooves 11 in the outer tubes 1 , a stepless adjustment of the frame 25 can be made.

From Fig. 9 it can be seen that in addition to the frame-side supplementary struts 23 , 24 further supplementary struts 35 , 36 can be provided. These are not part of a frame and are used exclusively for stiffening. The corresponding clamping screws 37 are just equipped with a hammer-like head 38 , see FIG. 9.

With the five different frames 25 a to 25 e illustrated in FIG. 12, as shown in FIG. 13, 15 different square column grids can be produced for optimal adaptation to the load that occurs. This allows a large variation of the Bausützenab stands, which ensures load transfer with good utilization of the building supports. In this way, the requirement on the construction sites is taken into account, namely the same device for a construction site.

From Fig. 10 it can be seen that the frame 25 support one or more rer scaffolding planks 39 can be. In this figure, only a single scaffold plank 39 is illustrated in dash-dotted lines, which extends in the gusset between the lower left stabilizing web 27 and the lower supplementary strut 24 .

In the formwork scaffold illustrated in FIGS. 1 and 2, two outer tubes 1 are each connected to their head plates 22 . In the free ends of the outer tubes 1 enter the threaded inner tubes 2 . The adjustment path is therefore very large. The individual building supports are connected by corresponding frames 25 d, which are braced at the insertion end of the outer tubes 1 . By diagonal struts 40 shown in dash-dotted lines in FIG. 2, additional reinforcement of the formwork scaffold can be achieved.

A formwork scaffold is also illustrated in FIG. 14. However, this has a greater height than the one previously described and is intended as a scaffolding. Corresponding scaffolding planks 39 are inserted for the purpose of inspection. The frame 25 carrying these also receive their bracing in the region of the insertion ends of the outer tubes 1 .

A formwork scaffold is shown in FIG. 15, wherein two outer tubes 1 which are clamped to one another each have different lengths. In this way, the construction supports arranged on the left side of the formwork scaffold can have a shorter length than those on the right. Therefore, the corresponding lower inner tubes 2 associated with the shorter structure can be supported at a higher level than the lower inner tubes 2 arranged on the right. In contrast, the upper support points are at one level. In this solution, the outer tubes of the building supports are connected by frames 25 , which in turn carry planks 39 of a scaffolding.

Claims (9)

1. From telescopically slidably arranged outer tube and inner tube existing building support, the outer tube extending in the axial direction, undercut grooves for receiving fastening clamping screws, characterized by both sides of the grooves ( 11 ) extending contact surfaces (A) for the central connection of with the fastening clamping screws ( 30 , 37 ) additional braces ( 23 , 24 or 35 , 36 ) to be fixed. 2. Construction support according to claim 1, characterized by an essentially quadrangular plan of the outer tube ( 1 ), each with an outgoing groove from each square side ( 11 ) such that on both sides of the groove ( 11 ) flat contact surfaces (A) for the supplementary struts ( 23 , 24 or 35 , 36 ) are easily seen. 3. Construction support according to one or more of the preceding claims, characterized in that the grooves ( 11 ) formed on the Nutenbo ( 12 ) of the wall material of the outer tube ( 1 ) grooves ( 11 ) the outer surface of the with an adjusting thread ( 5 ) equipped inner tube ( 2 ) leads. 4. Building support according to claim 3, characterized in that a on the United adjusting thread ( 5 ) of the inner tube ( 2 ) running adjusting nut ter ( 6 ) in its contact position at the front end ( 1 ') of the outer tube ( 1 ) from a spring action against the release position of the movable pawl ( 16 ) is engaged, which extends at the level of the entry gap (S) of the groove ( 11 ). 5. Construction support according to one or more of the preceding claims, characterized in that an end face ( 1 '') of the outer tube ( 1 ) is equipped with a head plate ( 22 ) which carries through holes ( 22 ') for outer tube connecting screws. 6. Construction support according to claim 5, characterized in that the head plate ( 22 ) has a push-through hole ( 22 '') for the inner tube ( 2 ). 7. Construction support according to one or more of the preceding claims, characterized in that the supplementary struts ( 23 , 24 ) are part of a two construction supports binding frame ( 25 ). 8. Construction support according to one or more of the preceding claims, characterized in that the fastening clamping screws ( 30 ) equipped with a hammer-like head ( 32 ), rotatable in the groove ( 11 ) into the rear grip position and loaded by a spring ( 33 ) in the clamping direction are steady. 9. Construction support according to one or more of the preceding claims, characterized in that the supplementary struts ( 23 , 24 ) have an overlying edge (R) of the flat contact surfaces (A) shoe ( 26 ).