EP0480094A1 - Concrete-form strut - Google Patents

Abstract

Concrete-form strut (2), comprising the following features: (a) a first strut section (6) having at least one cross-hole (18); (b) a second strut section (8) which comprises a pair of opposite elongated holes (26) and an external thread on at least part of its length, and into which the first strut section (6) projects with part of its length; (c) a sleeve (16) which sits in the region of the elongated-hole pair (26) rotationally and axially movable on the second strut section (8) and comprises a cross-hole (36); (d) a nut (14) which sits on the second strut section (8) in engagement with its external thread; (e) in the operating state of the strut (2), the sleeve (16) and the nut (14) being in an engagement with one another which positively prevents substantial axial separation and permits rotation of the sleeve (16) relatively to the nut (14); (f) a front face (40) of the sleeve (16) on the side remote from the nut (14), which front face (40) comprises a region (40b) which, in the circumferential direction, gradually recedes in the direction of the nut (14); (g) and in the use state of the strut, a bolt (38) which passes through the cross-hole (18) of the first strut section (6) and the elongated-hole pair (26) of the second strut section (8) and which, in addition, either passes through the cross-hole (36) of the sleeve (16) or forms an abutment for the said front face (40) of the sleeve (16). <IMAGE>

Description

The invention relates to a concrete formwork support.

A typical example of a concrete formwork prop is a slab formwork prop. If, for example, a building ceiling is to be concreted, a large number of columns are built on an existing ceiling, which support the ceiling formwork arranged on it when concreting. After the concrete slab has set, the slab formwork supports are removed.

It is state of the art to construct slab formwork columns from a lower, first column section and an upper, second column section, the length of the slab formwork column being adjustable by means of a nut cooperating with a thread on one of the two column sections. Furthermore, slab formwork supports are known in which a so-called impact disc rests on a bolt inserted through a transverse bore in a support section. The contact surface between the striking disc and the bolt does not run in a plane that is perpendicular to the longitudinal axis of the column, but at an angle to such a plane. When the impact disk is turned in the release direction by hammer blows, the head of the support lowers. This version is called the quick lowering device. Finally, it is state of the art to construct supports from support sections which are connected to one another with tensile strength. Such tensile supports can be used, for example, as an inclined support for wall formwork, where they must be able to transmit both compressive and tensile forces.

The aim of the invention is a concrete formwork support that is both finely adjustable and has a quick lowering device. In addition, a version is to be available in which the support is overall tensile. Thus, the support according to the invention can be used very universally in a wide variety of formwork construction tasks. It is no longer necessary to keep several different types of supports at the construction site. For companies that erect concrete formwork, purchasing and warehousing are much more efficient.

• (a) einen ersten Stützenabschnitt mit mindestens einem Querloch;
• (b) einen zweiten Stützenabschnitt, der ein Paar gegenüberliegender Langlöcher und mindestens auf einem Teil seiner Länge ein Außengewinde aufweist und in den der erste Stützenabschnitt mit einem Teil seiner Länge hineinragt;
• (c) eine Hülse, die im Bereich des Langlochpaars rotationsmäßig sowie axial bewegbar auf dem zweiten Stützenabschnitt sitzt und die ein Querloch aufweist;
• (d) eine Mutter, die in Eingriff mit dessen Außengewinde auf dem zweiten Stützenabschnitt sitzt;
• (e) wobei im Betriebszustand der Stütze die Hülse und die Mutter in einem Eingriff miteinander sind, der wesentliches axiales Auseinanderbewegen formschlüssig verhindert und Rotation der Hülse relativ zu der Mutter erlaubt;
• (f) eine Stirnfläche der Hülse auf der der Mutter abgewandten Seite, welche Stirnfläche einen Bereich aufweist, der in Umfangsrichtung allmählich in Richtung zu der Mutter zurückweicht;
• (g) und im Einsatzzustand der Stütze einen Bolzen, der durch das Querloch des ersten Stützenabschnitts und das Langlochpaar des zweiten Stützenabschnitts führt und der außerdem entweder durch das Querloch der Hülse führt oder ein Widerlager für die genannte Stirnfläche der Hülse bildet.

The concrete formwork support according to the invention has the following features:

• (a) a first support section with at least one transverse hole;
• (b) a second support section, which has a pair of opposed elongated holes and at least part of its length has an external thread and into which the first support section projects with a part of its length;
• (c) a sleeve which is rotationally and axially movable on the second support section in the region of the elongated hole pair and which has a transverse hole;
• (d) a nut which engages the male thread on the second post portion;
• (e) wherein in the operating state of the support, the sleeve and the nut are in engagement with one another, which positively prevents substantial axial movement apart and allows rotation of the sleeve relative to the nut;
• (f) an end face of the sleeve on the side facing away from the nut, the end face having an area which gradually shrinks in the circumferential direction towards the nut;
• (g) and in the operating state of the support a bolt which leads through the transverse hole of the first support section and the elongated hole pair of the second support section and which also either leads through the transverse hole of the sleeve or forms an abutment for the said end face of the sleeve.

A preferred way of creating the described engagement between the sleeve and the nut is that the sleeve has two essentially diametrically arranged claws which engage around a collar of the nut. When the nut is turned with its collar all the way to the end of the second support section, the nut can be pushed from the side between the two claws of the sleeve. The nut can then be screwed onto the thread of the second support section in the direction away from the first support section, as a result of which the engagement between the sleeve and the nut, which is positive relative to axial movement apart and allows relative rotation, is accomplished. At least one of the two claws is preferably made so large that it provides a striking surface, in particular for a hammer, for rotating the sleeve.

The support according to the invention can be supplemented by a foot section. A preferred example of this is described below.

In a preferred development of the invention, the support has a third support section and a coupling nut which is in threaded engagement with the second support section and is in engagement with the third support section by means of a bayonet catch. The coupling nut thus creates a tensile connection between the second and the third support section. The third support section can be so long that the overall support is formed by the described three support sections, optionally supplemented by a foot section. However, it is also possible to make the second support section so long that no third support section is required.

In a preferred development of the invention, the support has a fourth support section, which has an abutment collar and on one side of the abutment collar has an insertion region inserted into the second support section or the third support section. The fourth support section represents an extension section of the support and can either be combined with the first three support sections (in particular if a particularly long support is required) or can be combined with only the first two support sections. The fourth support section can be inserted non-tensile in the second support section or the third support section. However, it can also be connected to the relevant neighboring support section in a tensile manner, for example by means of a bolt inserted through corresponding transverse holes.

The support according to the invention can preferably be used as a slab formwork support, as an inclined support for wall formwork, but also as a formwork table support. In the latter case, several, for example four, supports support a formwork table; A ceiling formwork can be built up from several formwork tables side by side. All in all, the formwork tables can be moved to a different location in a building under construction more efficiently than when working with columns and ceiling formwork attached to them.

The head region of the column section (third or fourth column section) which comes into engagement with the formwork is preferably not widened, so that it can be easily inserted between two formwork beams. The support can be provided with spreading legs at the lower end, which facilitates the formwork construction.

• Figur 1 eine Betonierschalungsstütze in Seitenansicht;
• Figur 2 eine Mutter der Stütze von Fig. 1 teilweise in Seitenansicht und teilweise im Längsschnitt;
• Figur 3 eine Hülse der Stütze von Fig. 1 in Seitenansicht;
• Figur 4 eine Kopplungsmutter der Stütze von Fig. 4 teilweise in Seitenansicht und teilweise im Längsschnitt;
• Figur 5 die Kopplungsmutter von Fig. 4 in Draufsicht;
• Figur 6 die Ausbildung des unteren Endes eines dritten Stützenabschnitts in Seitenansicht;
• Figur 7 mehrere Stützen gemäß Fig. 1 bei der Verwendung als Deckenschalungsstütze;
• Figur 8 mehrere Stützen gemäß Fig. 1 bei der Verwendung als Schalungstischstütze;
• Figur 9 eine Stütze gemäß Fig. 1 bei der Verwendung als Schrägstütze für eine Wandschalung.

The invention and refinements of the invention are explained in more detail below with reference to an exemplary embodiment shown in the drawing. It shows:

• Figure 1 is a concrete formwork support in side view;
• Figure 2 shows a nut of the support of Figure 1 partly in side view and partly in longitudinal section;
• Figure 3 shows a sleeve of the support of Figure 1 in side view.
• Figure 4 shows a coupling nut of the support of Figure 4, partly in side view and partly in longitudinal section;
• Figure 5 shows the coupling nut of Figure 4 in plan view.
• Figure 6 shows the formation of the lower end of a third support section in side view;
• FIG. 7 several supports according to FIG. 1 when used as slab formwork supports;
• FIG. 8 several supports according to FIG. 1 when used as formwork table supports;
• 9 shows a support according to FIG. 1 when used as an inclined support for wall formwork.

The concrete formwork support 2 shown in Fig. 1 hereinafter referred to as "support" consists essentially of a bottom section 4, a first support section 6, a second support section 8, a third support section 10, a fourth support section 12, a nut 14, and a sleeve 16.

The first support section 6 consists of a tube which has transverse holes 18 at a mutual distance in the longitudinal direction of the tube of, for example, 10 cm. The foot section 4 consists of an upwardly projecting, hollow-cylindrical insertion area 20 which is inserted into the first support section 6 from below, and a widened foot area 22 in the form of a plate. The insertion region 20 can have a transverse hole 24. A pin (not shown) can be inserted through this transverse hole 24 and a corresponding transverse hole 18 in the first support section.

The second Stützenabschntit 8 is a tube which is provided with an external thread throughout in the illustrated embodiment. In its lower half, the second support section 8 has a pair of diametrically opposed elongated holes 26, which extend in the longitudinal direction of the support 2. The nut 14, which has an enlarged collar 28 at its lower end, is placed on the external thread.

The nut 14 has diametrically opposite two ears 30, each with a bore in the tangential direction.

The sleeve 16 is arranged below the nut 14 on the second support section 8. The upper end region of the sleeve 16 is designed as a collar 32 which is essentially the same size as the collar 28 of the nut 14. The sleeve 16 has in one piece two diametrically opposed claws 34 which engage around the collar 28 of the nut 14. The inner profile of the claws 34 - seen in plan view - is not circular, but is formed by two planes which extend tangentially to the support 2. As a result, the collar 28 of the nut 14 can be pushed between the two claws 24 in front of the drawing plane of FIG. 1 in the direction perpendicular to the longitudinal axis of the support when the nut 14 is screwed down to the lower end of the second support section 8. In the drawn operating state of the support 2 there is an engagement between the nut 14 and the sleeve 16, the essential axial movement apart of these two parts form prevented and rotation of the sleeve relative to the nut allowed.

The sleeve 16 has no internal thread and has an inner diameter which is slightly larger than the outer diameter of the second support section 8, so that the sleeve 16 can rotate with little play on the second support section 8 and move in the axial direction. A bolt 38 is inserted through one of the transverse bores 18 of the first support section 6 and through the pair of elongated holes 26 and through a transverse bore 36 in the sleeve 16, as a result of which the first support section 6 and the sleeve 16 are connected to one another. Ultimately, the first support section 6 and the second support section 8 are connected to one another in a tensile and pressure-tight manner via the engagement between the sleeve 16 and the nut 14. By turning the nut 14 on the thread of the second support section 8, the total length of the arrangement of the first support section 6 and the second support section 8 can be finely adjusted.

Instead of inserting the bolt 38 through the transverse hole 36 of the sleeve 16, the bolt 38 can also be inserted below the sleeve 16 through a transverse hole 18 of the first support section 6 and the elongated hole pair 26, so that the lower end face 40 of the sleeve on the bolt 38 rests as an abutment. The end face 40 has a first region 40a, which lies essentially in a plane running at right angles to the longitudinal axis of the column, and has a second region 40b, which adjoins in the circumferential direction and gradually shrinks in the direction of the nut 14. If the sleeve 16 is rotated counterclockwise (viewed from above) by a certain angular range, starting from the state that the first region 40a abuts against the bolt 38 from above, the sleeve 16 can move because of the course of the second region 40b the face 40 move down. The entire second support section 8 follows this movement. In this way, a quick lowering device is created. The claws 34 are so large that they represent striking surfaces for a hammer in order to rotate the sleeve 16. During this rotation of the sleeve 16, the nut 14 is not also rotated, but there is a relative rotation between the collars 32 and 28.

The third support section 10 is a tube with essentially the same outer diameter as the second support section 8. The second support section 8 and the third support section 10 are connected to one another by a coupling nut 42. 4 that the coupling nut is provided with an internal thread 44 in approximately its lower half, which fits on the external thread of the second support section 8. In its upper half, the coupling nut 42 has bayonet locking passages 46 on the inner circumference. The third support section 10 has four arcuate projections 48 distributed around the circumference at the lower end. The projections 48 fit into the bayonet locking passages 46. Thus, the tube of the third support section 10 can be inserted into the coupling nut 42 from above at a specific relative rotational position and locked in the coupling nut 42 by turning it by about 30 to 50. If, before or after, the coupling nut 42 is screwed onto the second support section, the second support section 8 and the third support section 10 are in face-to-face contact with one another and are fixedly connected to one another by means of the coupling nut 42.

The fourth support section 12 is a tube with an outer diameter that is slightly smaller than the inner diameter of the tube of the third support section 10. A little above its lower end, the fourth support section 12 has an abutment collar 50 which is fixedly connected to the tube of the fourth support section 12. With the area 52 located below the abutment collar 50, the fourth support section is inserted into the third support section 10. The fourth support section 12 has transverse holes 54 so that it can be connected to the third support section 10 in a tensile manner by means of inserted bolts (not shown) and / or can be connected to lower supports 56 of the ceiling formwork 60 (FIG. 7).

It is easy to imagine that the support 2 need not necessarily have the third support section 10 and the fourth support section 12. If the second support section 8 is long enough (the external thread of which may be limited to the lower end region of the second support section 8), the support 2 can be used with the first support section 6 and the second support section 8. If the third support section 10 is made long enough, the fourth support section 12 can be dispensed with. Instead of providing the third support section 10, the fourth support section 12 can be inserted into the second support section 8 from above.

From the outside configuration, the coupling nut 42 and the abutment collar 50 are essentially the same, and this outside contour is best seen in FIG. 5. There are four radially outwardly extending projections 62, which each contain a radially oriented pocket opening 64. Each pocket opening 64 is provided with an internal thread. Struts 66 (see FIG. 8) can be attached there using screws or bolts.

In Fig. 6, two supports 2 are attached below brought spreading legs 68 drawn, which carry a ceiling formwork 60 together with other supports 2.

8 shows a formwork table 70 which has four supports 2 arranged in a square. These supports 2 are connected to one another by struts 66, which results in an overall stable structure.

9 shows the use of the support 2 as an inclined support for a wall formwork 72. Two supports 2 according to the invention are used, one support 2 is arranged steeper and leads to the upper area of the wall formwork 72, and one support 2 is arranged at a lower incline and towards the foot area of the wall formwork 72 leading.

Claims (9)

1. Concrete formwork support (2), having the following features: (a) a first support section (6) with at least one transverse hole (18); (b) a second support section (8) which has a pair of opposed elongated holes (26) and at least part of its length has an external thread and into which the first support section (6) projects with a part of its length; (c) a sleeve (16) which, in the region of the elongated hole pair (26), is rotatably and axially movable on the second support section (8) and has a transverse hole (36); (d) a nut (14) which is in engagement with its external thread on the second support section (8); (e) wherein in the operating state of the support (2), the sleeve (16) and the nut (14) are in engagement with one another, which positively prevents substantial axial movement apart and allows rotation of the sleeve (16) relative to the nut (14); (f) an end face (40) of the sleeve (16) on the side facing away from the nut (14), the end face (40) having a region (40b) which gradually shrinks in the circumferential direction towards the nut (14); (g) and in the operational state of the support a bolt (38) which leads through the transverse hole (18) of the first support section (6) and the elongated hole pair (26) of the second support section (8) and which also either through the transverse hole (36) the sleeve (16) leads or forms an abutment for the said end face (40) of the sleeve (16). 2. Concrete formwork support according to claim 1,
characterized,
that the sleeve (16) has two essentially diametrically arranged claws (34) which engage around a collar (28) of the nut (14). 3. Concrete formwork support according to claim 2,
characterized,
that at least one of the claws is so large that it provides a striking surface for rotating the sleeve (16). 4. Concrete formwork support according to one of claims 1 to 3,
marked by
a foot section (4) which is inserted into the first support section (6) with an insertion area (20) and has an enlarged foot area (22) at the opposite end. 5. Concrete formwork support according to claim 4,
characterized,
that the foot section (4) and the first support section (6) are held together by means of a bolt which leads through a transverse hole (24) in the foot section (4) and a transverse hole (18) in the first support section (6). 6. Concrete formwork support according to one of claims 1 to 5,
marked by
a third support section (10) and a coupling nut (42) which is in threaded engagement with the second support section (8) and with the third support section (10) by a bayonet lock (46, 48). 7. Support according to one of claims 1 to 6,
marked by
a fourth support section (12) which has an abutment collar (50) and on one side of the abutment collar (50) an insertion area (52) which is inserted into the second support section (8) or the third support section (10). 8. Concrete formwork support according to one of claims 1 to 7,
characterized,
that the coupling nut (42) and / or the abutment collar (50) has a plurality of essentially radially facing extensions (62) with a pocket opening (64) for attaching struts (66) on the circumference. 9. Use of the concrete formwork support according to one of claims 1 to 8 as a slab formwork support, formwork table support or inclined support for wall formwork (72).

Images