EP0668417A1 - Scaffolding support - Google Patents

Abstract

The staging (6) has two or more booms (11,12), each with a horizontal arm (21,23) and a supporting member (14) with supporting surface (17) at its bottom end. A third supporting member with supporting surface at the bottom end hinges on the booms or is rigidly joined to them. At the end furthest from the supporting members the arms have a vertical hinge axis (36), by which they hinge on each other. There can be a third boom hinging on the others via a vertical axis (37). This accommodates the support with third supporting surface at the end furthest from the hinge. The support can be formed by a tube.

Description

For interior work, assembly work in rooms, such as cable laying work or the like, as well as for related activities, the craftsman or handyman in question occasionally has to work in upper wall or ceiling areas, for which he needs an elevated position.

Stair or step ladders can be used for this purpose, but they restrict freedom of movement and have to be moved forward for work in different places.

Also in practice, makeshift scaffolds made of solid scaffolding trestles, stair ladders or the like and planks are often used as aids for the above-mentioned purpose. However, the fixed scaffolding trestles and folding ladders are relatively bulky and are therefore frequently replaced in practice for convenience by boxes, stools or the like. Such temporary structures are usually not sufficiently stable and thus represent a constant source of danger.

From GB-PS 1 525 130 a trestle is known which has a side view of a triangular stand provided with two feet, on which a horizontally oriented tube serving as a bolt is rotatably supported at one end about a vertical axis, the other with its other End is supported by a vertical stand tube carrying a stand. For storage, the horizontal tube is connected to a relatively short vertical tube, which is rotatably inserted in a corresponding receiving tube provided on the stand. The stand can therefore be swiveled against the latch provided with the support foot. To lock the respective swivel position, a crown is provided which is connected to the vertical receiving tube and between whose teeth the horizontal tube forming the bolt can lie. Although the stand and the bolt having the support foot can be pivoted in relation to one another, the scaffold stand is relatively unwieldy.

Proceeding from this, it is an object of the invention to provide a scaffolding frame with which stable scaffolding can be constructed from parts that are easy to handle.

The above object is achieved by a scaffold frame with the features of claim 1.

The scaffold trestle has at least two pivotally mounted cantilevers. The pivot axis specified by the hinge device is vertical when the scaffold stand is set up on the floor. All weight forces also act vertically on the trestle. The weight forces that occur during normal loading thus act in the direction of the axis of rotation. They do not cause the torque that swivels as brackets or bars. The scaffold frame can therefore not be folded up by the weight forces absorbed. The scaffolding trestle can, however, be folded by hand via its hinge device, and can be easily transported when folded.

In an advantageous embodiment, the scaffold frame can also have three brackets, the third support surface being provided on the additional third bracket. In this trestle, the distances between its support surfaces are relatively large. The resulting total spanned footprint is also large. Because the support surfaces are far apart, the scaffold stand is particularly stable regardless of the load. In accordance with the swivel position selected in each case, the arms are approximately radially away from the hinge axis (s) so that the trestle is more or less star-shaped when viewed from above. The star-shaped brackets give the scaffold stand stability.

The arms are provided at the end, i.e. with respect to the respective hinge axis, at their radially outer end with a support foot which serves as a support element, which in the simplest case is a substantially vertically standing tube which stands on the floor with a contact surface. The trestle is thus three-legged and therefore has a secure stand. Even if the floor is more or less wavy, the trestle stands without wobbling.

Due to the swiveling mounting of the jibs to one another, the scaffolding trestle can be used in a variety of ways to erect scaffolding. Regardless of the swivel position of the booms to each other, the support surfaces of the trestle are always essentially horizontal when it is set up on the floor. This means that one or more accessible planks can be placed on each boom. The jibs are swiveled and raised as required for the particular purpose. For example, it is easily possible to place a boom in a corner of the room and let the others protrude into the room in a correspondingly spread position. This means that the scaffolding trestle provides a clean and safe support for scaffolding planks even in otherwise difficult-to-reach corners.

The pivotable mounting of the brackets to one another by means of the hinge device not only allows the scaffold trestle to be brought into different positions of use as required, but also to be folded up, so that it is handy and easy to transport. The folded scaffolding stand takes up little more space than one of its outriggers, so that a not too large version of the same can easily be transported, for example, in a trunk of a car or in a smaller delivery van, as is customary for craftsmen. Because of its manageability, there is hardly any risk that the scaffold stand would be temporarily replaced by unsuitable means, so that the risk of accidents is reduced and occupational safety is increased.

The support foot provided on the scaffold frame and conceivable in principle in various designs is preferably an elongated, straight support. This results in a high load capacity with low material stress, especially when it is placed vertically. It can therefore be easily interpreted accordingly.

A good stability is provided in particular by a support leg which is formed by a tube section. This is kink-resistant and tolerant, set up vertically, high loads.

Both a high load-bearing capacity and a low weight are achieved with a box profile as a support foot. However, this also has the advantage that, due to its essentially flat side surfaces, it can be easily connected to other parts of the boom, such as the bolts. These are butt-welded to the flat side surfaces, for example.

The support leg designed as a box profile can be provided at its end to be erected on the floor with a foot which distributes the weight lying on the support leg and thus keeps the pressure exerted on the floor relatively low. Pressing the support foot into the floor is avoided. This improves stability when using the scaffold frame for outdoor work and, for indoor work, the floor in question is somewhat protected. This protection is improved by providing a soft, non-scratchy coating on the support foot in the area of its support surface, for example on its foot. This can be a felt, rubber or other coating.

The vertical support leg in use can be provided on its upper side with a coupling piece for connection to further support feet. This makes it possible to stack several scaffolding trestles on top of one another and thus create scaffolding with different heights. A simple version of the coupling piece is a stepped pin aligned with the support foot. Its diameter is slightly smaller than the inside diameter of the support leg, which is designed, for example, as a tube, the pin being held stationary in the support leg. A further trestle can be attached to the pins. Any feet that are attached to the scaffold frame to be attached are removed beforehand.

The bolt located on the trestle between the hinge device and the support leg can be an elongated, rigid support, for example a T or U profile. However, it is advantageously a pipe section or a box section. These can be easily connected to the support foot and are closed on the outside so that no dirt corners are formed. In addition, box sections in particular have a high level of flexural rigidity, so that the brackets in detail and the trestle as a whole are stable and stable.

The bolt fastened at the end to the support foot can be connected to the support foot, for example at the end thereof. However, in terms of slip resistance, it is one on the trestle, i.e. scaffold plank placed on the latch is advantageous if the latch is laterally attached to the support foot. Then a part of the support leg protrudes upwards over the support surface of the transom, this overhang preventing the scaffold plank from slipping sideways.

In the case of a relatively large construction form of the trestle, in which the support feet are significantly longer than the bars, the angle enclosed by the bar and the support foot can be an obtuse angle, so that the support feet are inclined during use. This allows good stability to be achieved with this larger design. However, it is particularly advantageous in the case of more compact sizes, such as are to be used for interior construction, if the angle enclosed between the latch and the support foot is a right angle. The support feet are thus perpendicular to the floor, whereby they are essentially only exposed to a pressure load. Accordingly, they can be made relatively thin-walled and therefore light, without problems of stability. This increases the handiness. In addition, the folded trestle takes up only a smaller, approximately rectangular area, so that it can be easily transported.

The support feet and the latch, in other words the bracket, can or can be made of metal. Both aluminum and steel are suitable as metals, whereby the steel can be galvanized for corrosion protection and can be painted.

The scaffolding trestle can have brackets with two or more bars. If, for example, two bars are provided, the scaffold trestle already reaches medium heights, which for example consist of box section material give the bars good stability. In this embodiment, the hinge device provided on the end of the latches can be made relatively simple. Due to the vertical spacing of the bolts from one another, the cantilevers are reliably guided with respect to the hinge axis defined by the hinge device. There is no reason to fear that the booms will fold away to the side due to a failure of the hinge device.

The hinge device allows the arms a wide swivel range so that they can be folded up like a book for transport. The three cantilevers are essentially identical to one another. To set them up, however, they can be pivoted away almost as desired about the hinge axis defined by the hinge device.

The hinge device can be formed in a simple manner by tabs which are respectively provided on the bolt or the bolts of one of the brackets and which are welded, for example, to the respective bolt. The latch of the adjacent bracket is located between two brackets of one bracket that are parallel and at a distance from one another. Both the tabs and the bolt are penetrated by a bolt, whereby a hinge is formed. Such a hinge is easy to manufacture and has a certain amount of play. This game ensures that several individual hinges encompassed by the hinge device cannot block each other. Even if they are offset by a few millimeters during manufacture so that their axes of rotation are not exactly aligned, they together define a hinge axis around which the brackets can be pivoted. The resulting relatively large tolerances in the manufacture of the hinges reduce the effort and thus the manufacturing costs.

The scaffolding trestle can be provided with a holding device to which, for example, a ceiling support can be attached. This reliably secures the trestle against falling over, particularly with tall scaffolding. The holding device is preferably provided in the hinge device. A ceiling prop attached here secures the scaffold trestle at a central point of attack and also does not hinder access to the support surfaces. Scaffolding planks or the like can be placed on the bars unhindered. The holding device gives the relevant boom and thus the entire scaffold stand additional support when it is arranged between the bars of the relevant boom. This also serves to brace the boom. The holding device can be a carrier, such as a pipe section or a box section.

A stop means can be provided in the hinge device as an abutment for elongate parts to be fastened to the holding device. This can be designed, for example, as a prism, so that the stop means has two contact surfaces which are at an angle to one another and open away from the carrier. A ceiling prop to be fastened, for example, is inserted into the lifting means so that it touches both contact surfaces. The ceiling support can then be pressed firmly onto the contact surfaces with a hook-shaped or U-shaped bolt, which is supported on the holding device. The frictional connection between these and the ceiling support results in a secure connection between the same and the scaffold frame.

• Fig. 1 ein in einem Raum aufgebautes Gerüst mit mehreren Gerüstböcken in Draufsicht,
• Fig. 2 einen der in Fig. 1 dargestellten Gerüstböcke in Draufsicht und in einem anderem Maßstab,
• Fig. 3 den Gerüstbock nach Fig. 2 in einer Seitenansicht mit Blickrichtung auf seine Scharniereinrichtung,
• Fig. 4 eine weitere insbesondere zum Aufstocken geeignete Ausführungsform des Gerüstbockes,
• Fig. 5 einen mit einer Halteeinrichtung versehenen Gerüstbock in Draufsicht,
• Fig. 6 den Gerüstbock nach Fig. 5 in einer Seitenansicht mit Blickrichtung auf seine Scharniereinrichtung und
• Fig. 7 ein in einem Raum aufgestelltes Gerüst in einer ausschnittsweisen Darstellung, mit Gerüstböcken einer weiteren Ausführungsform, in Draufsicht.

In the drawing, an embodiment of the invention is shown. Show it:

• 1 is a scaffold built in a room with several trestles in plan view,
• 2 shows one of the trestles shown in FIG. 1 in plan view and on a different scale,
• 3 shows the scaffold trestle according to FIG. 2 in a side view looking towards its hinge device,
• 4 shows a further embodiment of the scaffolding stand, which is particularly suitable for stacking,
• 5 is a top view of a trestle provided with a holding device,
• Fig. 6 shows the scaffold trestle according to Fig. 5 in a side view looking towards its hinge device and
• Fig. 7 is a scaffold erected in a room in a sectional view, with trestles of a further embodiment, in plan view.

In Fig. 1, a scaffold 1 is shown in plan view, which is placed on a floor 2 in a room 3 along its walls 4. The walls 4 are cut parallel to the floor 2 above the frame 1 and the viewing direction is perpendicular to the floor 2.

The scaffolding 1 consists of a total of seven scaffolding trestles 6 which are completely identical to one another and a plurality of scaffolding planks 7 which are placed on the scaffolding trestles 6 approximately parallel to the floor 2 and at a short distance from the walls 4.

Each scaffold bracket 6 has three cantilevers or brackets 11, 12, 13 which are pivotally mounted on one another via a hinge device 8 and which, as can be seen from FIG. 1, can be aligned vertically in different angular positions relative to one another.

The arms 11, 12, 13 of the scaffold bracket 6 shown separately in FIGS. 2 and 3 are essentially identical to one another. The boom 11 has a standpipe 14 which is formed on a box section made of steel with a square cross section. On the floor-side end 15 of the standpipe 19, a foot 16 with a support surface 17 of a few square centimeters is provided. At its opposite end 18, the standpipe 14 is provided with a pin 19 which ends in a truncated cone and is used for connection to further scaffolding frames 6 to be stacked.

The bracket 11 includes a strut, like the standpipe 14 made of a box section made of steel, which serves as a latch 21 and which is welded at the end 18 somewhat offset against the standpipe 14 downward on one of its side faces. The latch 21 and the standpipe 14 form a right angle with one another. The bolt 21 is arranged so that it has a flat side 22 upwards, which thus forms a support surface for the scaffolding planks 7 to be placed.

At a distance and parallel to the bolt 21, another strut serving as a cross bar is provided, which is also welded at the end to the standpipe 14 and forms a second bolt 23. The dimensions of the bolt 23, which corresponds to the bolt 21, are welded to the standpipe 14 somewhat below the center thereof. Both the bars 21, 23 and the standpipe 14 lie with their respective longitudinal central axes in a common plane.

The arms 12, 13 are identical with respect to the standpipe 14 of the pins 19 and the bolts 21, 23 with the arm 11, so that a renewed description is omitted here and the same reference numerals are used for corresponding parts.

The hinge device 8 is provided at the ends on the bolts 21, 23 of the middle arm 12. It comprises a total of four individual hinges 25, 26, 27 and 28. To form the hinges 25, 26 located on both sides of the latch 21 of the arm 12, flat tabs 31, are attached to the latch 21 on its upper flat side 22 and its lower flat side opposite it. 32 welded. The upper tab 31 is the same size as the lower tab 32 and is arranged parallel to it. With the latch 21, the tabs 31, 32 form laterally open mouths which receive the latch 21 of the arm 11, 13. The tabs 31, 32 and the bolt 21 lying between them each have aligned holes which are penetrated by a hinge pin 33.

The hinge 28 connecting the bolts 23 of the brackets 11, 12 to one another is completely identical to the hinge 25 described above. Likewise, the hinge 27 connecting the bolts 23 of the brackets 12, 13 to one another is identical in construction to the hinge 26 described above.

The hinge pins 33 of the hinges 25, 28 define a common hinge axis 36 which is vertical, i.e. is aligned parallel to the longitudinal central axes of the standpipes 14. It lies approximately in the plane of the boom 11 defined by the bars 21, 23 and the standpipe 14 or their longitudinal central axes. However, it lies laterally against the bars 21, 23 of the middle boom 12, to the right in FIG. 3.

The hinge bolts 33 of the hinges 26, 27 likewise define an axis of rotation 37. It is aligned parallel to the standpipes 14 and thus also parallel to the other axis of rotation 36. The scaffold frame 6 is thus constructed symmetrically with respect to a plane defined by the central boom 12 through the longitudinal central axes of the bars 21, 23 and the standpipe 14.

As can be seen from FIG. 2, the arms 11, 13 can be folded onto the arm 12 so that they lie more or less tightly against the arm 12 in the folded state. This position is indicated in Fig. 2 by dash-dotted lines. The boom 11 can be folded away from the boom 12 by an angle of more than 180. The same applies to the boom 13, which is also pivotable in a wide range.

• Der Gerüstbock 6 wird, wie in Fig. 1 dargestellt, auseinander geklappt, wobei die Ausleger 11, 12, 13 in die an der jeweiligen Stelle erforderlichen Winkelstellungen zueinander gebracht werden. Beispielsweise kann ein an der laufenden Wand 4 aufzustellender Gerüstbock 6 mit einem Ausleger 12 rechtwinklig zur Wand und mit den Auslegern 11, 13 parallel zur Wand aufgestellt werden, wie in Fig. 1 unten dargestellt ist. Die entsprechenden Gerüstbohlen 7 werden dann auf die Auflagefläche 22 des mittleren Auslegers 12 aufgelegt. Diese Aufstellung bietet eine sehr gute Standsicherheit.

The scaffolding trestle 6 described so far is used to construct a scaffolding as follows:

• As shown in FIG. 1, the scaffold frame 6 is folded apart, the arms 11, 12, 13 being brought into the angular positions required at the respective location. For example, a scaffold stand 6 to be set up on the running wall 4 can be set up with an extension 12 perpendicular to the wall and with the extension 11, 13 parallel to the wall, as shown in FIG. 1 below. The corresponding scaffolding planks 7 are then placed on the support surface 22 of the middle boom 12. This arrangement offers very good stability.

Another way of setting up the scaffold 6 on the moving wall 4 is shown in FIG. 1 above. Here the boom 12 is also perpendicular to the wall 4, but it points away from this. The arms 11, 13 are spread apart from one another at an angle to the wall 4. This type of installation has the advantage that the corresponding scaffolding planks 7 to be placed can be placed individually, ie without mutual overlap, on the arms 11, 13. The scaffolding boards meet on the front. As a result of the freedom of overlap, a level walking surface on which there is no risk of tripping caused by any steps.

As can be seen from the bottom left of FIG. 1, the scaffold plank 7 can be placed almost with its outermost end region on the outrigger 12 set up at right angles to the running wall 4, the outrigger 11, 13 being spread apart in order to provide sufficient stability. With this erection of the scaffolding frame 6 there is no danger that an employee on the scaffolding would step on an unsupported end of the scaffolding screed 7 and thus fall off. Further variants of the erection of the scaffold frame 6 are shown in FIG. 1 at the bottom right and at the top right.

All of the illustrated variants of the scaffold frame 6 have in common that it is set up with a total of three support surfaces 17 wobble-free and tilt-proof on the floor 2. The support surfaces 17 are in particular in comparison to a scaffolding trestle with only two arms, in which a foot is arranged vertically under the hinge, far apart and thus give the scaffolding trestle 6 very good stability.

A further exemplary embodiment of the scaffolding frame 6 is shown in FIG. 4, this scaffolding frame 6 'serving in particular to stock up the scaffolding frame 6 shown in FIGS. 1 to 3. The scaffold frame 6 ', like the one described above, has three brackets 11', 12 ', 13', which are also connected to one another by a hinge device 8 '. The boom 11 'here consists only of the only bar 21' and the shortened standpipe 14 '. This is not provided with a foot in order to enable it to be placed on the pin 19 of the scaffold frame 6.

4 is used in conjunction with the scaffolding frame 6, in which the scaffolding frame 6 'is placed on the scaffolding frame 6 in a corresponding spread position so that its standpipes 14' are attached to the respective pins 19. The raised scaffold frame thus created from the scaffolding frames 6, 6 'is used, as already explained above in connection with FIG. 1.

Further embodiments of the scaffold frame 6 'are indicated by dash-dotted lines in FIG. 4. One has, in addition to the bolt 21 ', a further bolt 23' which runs parallel to the bolt 21 'at a distance. The use of this scaffold frame 6 "corresponds to that of the scaffold frame 6 ', with correspondingly greater scaffold heights being achieved. In a further design, a third frame 39 is additionally provided, which is arranged parallel to the frame 23'. The overall height of this frame frame 6" is higher , whereby it can be used separately as well as topping up. In the former case, it is provided with feet.

5 and 6, a further embodiment of the scaffold bracket 6 is shown, in which a holding device 40 is provided in the area of the hinges 25, 26, 27, 28 for fastening a vertical support 41. The support 41 can be, for example, a ceiling support, with which the trestle on the ceiling can additionally be secured against rocking movements. The holding device 40 includes a carrier 42 arranged parallel to the standpipe 14 between the bolts 21, 23. The carrier 42 is a box section made of steel, the length of which corresponds to the distance between the bolts 21, 23. The carrier is welded directly to the tabs 31, 32 between the bars 21, 23.

A guide bushing 43 is welded to the carrier 42 approximately centrally between the bolts 21, 23 by means of a corresponding holder, the cylindrical opening 44 of which is oriented essentially parallel to the bolts 21, 23 and which is arranged laterally offset against the carrier 42.

The opening 44 is penetrated by a threaded bolt 45 which is secured to the guide bush 43 with a wing nut 46. The threaded bolt 45 is bent into a hook at its free end protruding from the opening 44.

The tab 31 of the hinges 25, 26 and the tab 32 of the hinges 27, 28 are cut out triangularly as an abutment for the support to be tensioned by the threaded bolt 45 in the direction of the support 42. As a result, the tab 31 has two contact surfaces 47, 48 which enclose a right angle with one another which opens in the direction away from the carrier 42. The same applies to the tab 32.

To attach the support 41 to the boom 12, the wing nut 46 is loosened until the threaded bolt 45 with its hook-shaped section can be placed around the support 41 resting against the contact surfaces 47, 48. Then the wing nut 46 is tightened until the frictional engagement between the support 41 and the contact surfaces 47, 48 causes the support 41 to be securely clamped.

Although the scaffold bracket 6 is preferably to be produced as a welded construction made of steel with subsequent corrosion protection treatment, it can be riveted to from sheet metal half-shells or from other metals, such as aluminum.

In the scaffold 1 shown in the detail in FIG. 7, a further embodiment of the scaffold frame 6, also designated with the reference number “6”, is shown. So much for this scaffold bock 6 has elements that correspond to those of the embodiments described above, the same reference numerals are used without repeated reference and explanation.

The trestle 6 has only the two arms 11, 12, which are largely identical to the arms 11, 12 described above. They also have bolts 21, 23, which are welded at the ends to a standpipe 14. Each standpipe 14 carries a support surface 17, over which the relevant boom 11, 12 stands on the floor 2.

The boom 12 is pivotally connected to the boom 11 at its end opposite the standpipe 14 via the hinge device 8. The hinge axis 36 is vertical and the hinges 25, 28 are designed as shown in FIG. 3 and explained in connection with the embodiment which has three arms 11, 12, 13.

In addition, the bars 21, 23 of the arm 12 are connected to one another by a post for stiffening in the hinge device 8. The bars 21, 23, the standpipe 14 and the post describe a rectangle.

Arranged underneath the hinge 28 is an approximately vertical stand which carries the third support surface 17 which is arranged in the vicinity of the hinge axis 36. The stand is a short box section that is welded to the lower bar 23.

The stand can be arranged both vertically and inclined to the vertical. In particular, it can protrude from the arm 12 including the obturator 23 at an obtuse angle.

This trestle 6 is also stable over three support surfaces 17. The possible arrangement, for example, in a corner of the room is shown in FIG. 7. The arms 11, 12 can be set up at right angles or at an angle to the wall 4.

The trestle 6 can also be rotated, i.e. can be set up standing in the corner with its hinge device 8. The outriggers then protrude into the room at an angle and serve as a support for the planks 7.

Finally, the trestle 6 can also be used on a moving wall. the brackets 11, 12 are then spread apart slightly at an angle to the wall 4 and the hinge device is located on the room side with respect to the screed 7.

This embodiment of the trestle is easy to handle. In addition, the trestle is light in weight and can be easily transported due to its small dimensions.

The scaffold bracket 6 with two arms 11, 12 can also be provided with a holding device 40, as has been described above, the advantages mentioned in connection with the holding device 40 also resulting for this scaffolding bracket 6.

A scaffold frame 6 comprises three cantilevers 11, 12 which are essentially identical in construction and which are connected to one another via a hinge device 8. Each boom 11, 12 has a support surface 22 for a scaffold plank and a support surface 17, which can be provided on a foot or the like. The hinge axis 37 defined by the hinge device 8 is vertical, so that the arms 11, 12 can be folded apart. With a total of at least three support surfaces 17 provided on the brackets 11, 12, the scaffolding stand 6 stands securely and without wobble. When folded, the scaffolding trestle 6 is handy and can be easily transported.

Claims (31)

1. scaffolding stand (6) for the construction of accessible scaffolding, with at least two arms (11, 12), each having at least one horizontal bar (21, 23) and a support element (14) which has a support surface (17) at its lower end, with a third support element (14) which has a support surface (17) at its lower end and which is connected to at least one of the cantilevers (11, 12), and with a hinge device (8) which is connected to the bolts (21, 23) at their end remote from the respective support element (14), so that the arms (11, 12) about an axis (36 ) are pivotally connected to one another and mounted on one another. 2. Scaffolding trestle (6) according to claim 1, characterized in that the scaffolding trestle (6) has a third arm (13) which can be pivoted about the hinge device (8) about a hinge axis (37) which is essentially vertical during use, with the others Booms (11, 12) is connected and carries the support (14) with the third support surface (17) at its end remote from the hinge device (8). 3. scaffolding trestle according to claim 1, characterized in that the support element (14) is a support. 4. scaffolding trestle according to claim 3, characterized in that the support is a tube. 5. Scaffolding trestle according to claim 3 or 4, characterized in that the support (14) is provided at its end (15) with a foot (16) on which the support surface (17) is provided. 6. scaffolding trestle according to one of claims 3 to 5, characterized in that the support (14) in the region of its contact surface (17) has a soft, non-scratchy coating. 7. A trestle according to claim 1, characterized in that the support element (14) is provided at the end with a coupling piece (19) for connection to further support elements (14 '). 8. trestle according to claim 7, characterized in that the coupling piece (19) with the support element (14) is aligned, stepped pin. 9. scaffolding trestle according to claim 1, characterized in that the bolt (21) is a rigid support. 10. trestle according to claim 9, characterized in that the bolt is a tube. 11. trestle according to claim 10, characterized in that the bolt (21) is a box profile. 12. Scaffolding trestle according to claim 1, characterized in that the bolt (21) is connected with one of its ends to the support element (14). 13. A trestle according to claim 1, characterized in that the bolt (21) on the support element (14) is attached laterally. 14. Scaffolding trestle according to claim 1, characterized in that the support element (14) and the bolt (21) together form a substantially right angle. 15. A trestle according to claim 1, characterized in that the supporting element (14) and the bolt (21) consist of aluminum. 16. A trestle according to claim 1, characterized in that the support element (14) and the bolt (21) consist of steel. 17. A trestle according to claim 1, characterized in that the arms (11, 12, 13) have essentially the same dimensions. 18. A trestle according to claim 1, characterized in that the bolt (21) is formed from two rods (22) running parallel to one another at a distance. 19. Scaffolding trestle according to claim 1, characterized in that the pivoting range of the hinge device (8) is dimensioned such that adjacent brackets (11, 12) are both placed against one another and can be folded away from one another. 20. A trestle according to claim 1, characterized in that the pivoting range of two brackets (11, 12) defined by the hinge device (8) is at least 180 _° with respect to one another. 21. Scaffolding trestle according to claim 1, characterized in that the hinge device (8) has tabs (31, 32) which are fixedly connected to the end of the bolt (21, 23) remote from the support element (14) of a bracket (12) . 22. A trestle according to claim 21, characterized in that two tabs (31, 32) are provided at a distance parallel to each other at the end of the bolt (21, 23). 23. A trestle according to claim 22, characterized in that the bolt (21, 23) of each adjacent boom (11, 13) is arranged between the tabs (31, 32). 24. A trestle according to claim 22, characterized in that both the tabs (31, 32) and between the tabs (31, 32) gripped end of the bolt (21, 23) is penetrated by a bolt. 25. Scaffolding trestle according to claim 1, characterized in that a holding device (40) for fastening a support device (41) is provided on the latch (21, 23) of one of the arms (12). 26. A trestle according to claim 25, characterized in that the holding device (40) is provided in the hinge device (8). 27. A trestle according to claim 26, characterized in that the holding device (40) contains a carrier (42) which is arranged parallel to the axis (36, 37) of the hinge device (8) and is connected to the latch (21, 23). 28. Scaffolding trestle according to claim 26, characterized in that the holding device (40) is arranged between the bars (21, 23) of the boom (12). 29. A trestle according to claim 26 or 27, characterized in that the holding device (40) has stop means (47, 48) for receiving and storing the support device (41) to be fastened. 30. Scaffolding trestle according to claim 29, characterized in that the stop means (47, 48) have two contact surfaces (47, 48) which are at an angle to one another which opens away from the carrier (42). 31. Scaffolding trestle according to claim 25, characterized in that the support device (41) is a ceiling support.

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