EP0573745A1 - Connecting arrangement for shoring elements - Google Patents

Abstract

Connecting arrangement between a U-shaped guide section (2) of a sheeting element (1) (post or sheeting panel) and a brace (4) held in the guide section (2) in an articulated manner by means of a supporting shoe (3). In this arrangement, each guide section (2) forms by means of top and bottom wall pairs (6, 7), consisting in each case of two walls disposed perpendicularly on the web (8) of the guide section (2) at a slight distance from one another, a box-shaped pocket (10) for accommodating the supporting shoe (3), and the supporting shoe (3) consists of an elongated H-shaped supporting section (12) arranged axially relative to the guide section (2) and projecting into the latter, with a supporting plate (13) forming its web (8). On its top side (18) facing the brace (4), the supporting plate (13) has a receiving device (19) for the free end of the brace (4). In a concentric position on its underside (16), the supporting plate (13) has a cylinder piece (17) which is arranged transversely to the longitudinal direction of the supporting section (12) and is accommodated in a bearing shell (11) firmly connected to the web (8) of the guide section (2). Furthermore, compression-spring units (22) in alignment with one another are fastened at a distance apart to the top and underside (18, 16) of the supporting plate (13) on either side of the longitudinal centre plane of the brace (4) passing through the axis of the cylinder piece (17). The length of the compression-spring units (22) is greater than the respective height of the side-cheek part (14, 15), starting from the supporting plate (13), of the H-shaped supporting section (12), and in each case one leg (25) of a retaining angle (24) engages between the walls of the wall pairs (6, 7) of the guide section (2), which leg (25) can be releasably connected to these walls, and the other leg (23) of the retaining angle (24) overlaps the compression-spring units (22) as an abutment at the top side (18) of the supporting plate (13). <IMAGE>

Description

The invention relates to a connection arrangement according to the preamble of claim 1.

A connection arrangement of this type is known from DE 39 09 110 A1. With this connection arrangement it happens that due to the strong compressive force exerted by the excavator pushing the shoring plates into the ground, the respectively loaded compression spring unit is too weak and the spring connection is broken. The operator does not notice that the spring is overloaded. This can lead to undesired deformations, tension and malfunctions.

The known design offers no further effective possibilities for strengthening the compression spring units and provides for a rigid stop of the side cheeks on the guide profile if the compression spring unit is overloaded. Another disadvantage is that the retaining bolts, which are required to connect the support shoe to the guide profile, are relatively expensive to manufacture and assemble and are often lost in the ground. In addition, they are highly susceptible to corrosion.

The invention is therefore based on the object in the known connection arrangement to increase the spring force acting on the support plate without substantial structural enlargement of the support shoe and to enable the support shoe to be pivoted out as far as possible in the elastic range.

The object is achieved according to the invention with a generic connection arrangement with the characterizing features in claim 1.

This version no longer provides for bolt support for the support shoe on the guide profile, but uses a box-shaped pocket to hold the support shoe. In this way, protruding guide profiles and retaining bolts, as well as complicated recesses for inserting the retaining bolts, are avoided in the case of shoring elements in which the guiding profile is already integrated in the shoring element body.

The main advantage is, however, that when the support shoe is loaded, two diagonally resilient compression spring units with corresponding lever arms of the support plate are effective, which absorb the support plate movement only elastically and allow a considerable spring force. In contrast to the known device, the side cheeks of the support profile only serve to hold the compression spring units laterally and no longer as a stop. A rigid stop is no longer provided.

The subclaims relate to advantageous developments of the device according to claim 1.

Fig.1

einen Längsschnitt durch eine Verbindungsanordnung nach der Linie I-I in Fig.2,

Fig.2

einen Querschnitt nach der Linie II-II in Fig.1 und

Fig.3

einen Querschnitt nach der Linie III-III in Fig.1

Bei einem Grabenverbau stehen sich jeweils zwei Verbauelemente 1 gegenüber und werden durch Spreizen 4 auf Abstand gehalten. Die Verbauelemente 1 werden mittels eines Baggerlöffels abwechselnd in den Erdboden gedrückt. Dabei nehmen die Spreizen eine vom rechten Winkel abweichende schräge Winkellage zum Verbauelement ein. Diese darf ein bestimmtes Maß, z.B. 7° nicht überschreiten, da sonst die Verbaugeometrie verändert wird.The invention is explained in more detail below on the basis of an exemplary embodiment shown in the drawing. Show it:

Fig. 1

2 shows a longitudinal section through a connection arrangement along the line II in FIG. 2,

Fig. 2

a cross section along the line II-II in Fig.1 and

Fig. 3

a cross section along the line III-III in Fig.1

In the case of trench shoring, there are two shoring elements 1 opposite and are kept apart by spreading 4. The shoring elements 1 are pressed alternately into the ground by means of an excavator spoon. The struts assume an oblique angle to the shoring element that deviates from the right angle. This must not exceed a certain dimension, e.g. 7 °, otherwise the shoring geometry will be changed.

In the drawing, a shoring element 1, e.g. a shoring plate or a support is shown, in which a U-shaped guide profile 2 is integrated, which is arranged perpendicular to the intended trench bottom. A support shoe 3 is held in the guide profile 2 and is attached to the respective end of a spreader 4. The guide profile 2 does not protrude beyond the inner surface 5 of the shoring element 1. By means of an upper and a lower one, perpendicular to the web 8 and transversely to the flanges 9 of the guide profile 2 standing wall pairs 6, 7 from walls that have a small distance between them, a box-shaped pocket 10 is formed, which serves to receive the support shoe 3. On the vertical central plane transverse to the pocket 10, a bearing shell 11 is on Web 8 of the guide profile 2 attached.

The support shoe 3 consists essentially of a cross-sectionally H-shaped support profile 12, the web of which forms a support plate 13 and the flanges of which form upper and lower side cheek parts 14 and 15, respectively. The outer dimensions of the support profile 12 are selected so that the lower side cheek parts 15 can engage in the guide profile 2 with play.

On the underside 16 of the support plate 13, a cylinder piece 17 (for example a tube) is fastened transversely to its longitudinal direction, which corresponds to the bearing shell 11 and is received therein. This does not require any special surface treatment.

On the top 18 of the support plate 13, a receiving device 19 in the form of a sleeve for the free end of the strut 4 is attached. This is fixed to the receiving device 19 by means of a retaining bolt 20 or the like.

At a distance on both sides of the longitudinal center plane of the strut 4 passing through the axis of the cylinder piece 17, a lower compression spring unit 21 is fastened to the underside 14 of the support plate, which is supported on the web 8 of the guide profile 2.

In alignment with these lower compression spring units 21, a further, upper compression spring unit 22 is attached to the top 18 of the support plate 13. These are each supported on one leg 23 of a bracket 24, the other leg 25 is inserted between the walls of the pairs of walls 6 and 7 and is releasably connected to these by means of a bolt 26 or the like. Each compression spring unit 21 or 22 consists of helical compression springs arranged concentrically one inside the other, preferably wound in opposite directions, each of which the inner compression spring 27 carries an outer compression spring 28. The respective inner compression spring 27 is shorter than the outer compression spring 28 surrounding it, but it is longer than the height of the side cheek part 14 or 15 of the support profile 12 that points away from the support plate 13.

The uppermost aisle of the respective outer compression spring 28 resting against the support plate 13 is drawn into the clear space delimited by the inner diameter of this compression spring 28.

The uppermost course of the innermost compression spring 27 is bent at the end resting on the support plate 13 by 90 ° in the longitudinal median plane of this compression spring 27 as a bracket 30 and projects through a (not shown) slot in the support plate 13 and is on this by means of a split pin 31 or The like. Detachably attached.

In practical use, the bracket 24 is loosened and the support shoe 3 is inserted into the pocket 10 so that the cylinder piece 17 is received by the bearing shell 11. Then the brackets 24 are inserted and locked against the force of the upper compression spring units 22.

When the shoring elements 1 are pressed in alternately, the support shoe 3 pivots about the axis of its cylinder piece 17. At the same time, the support plate 13 is supported on the guide profile 2 by means of the lower compression spring unit 21 and the diagonally arranged upper compression spring unit 22 (via the bracket 24). The double arrangement of compression spring units 21, 22 which are supported at the same time results in a very extensive, exclusively elastic resistance force which counteracts the pressing force of the excavator and which is also noticeable by the excavator operator.

The new connection arrangement does not require high quality tolerances and surface treatments. All fasteners can be easily attached and detached, and secured to the installation parts by means of chains or the like so that they are not lost in the ground. The simple mounting of the support plate replaces the complex previous mounting with bearing bolts that can be used in the guide profile and is more robust.

Claims (4)

Connection arrangement between a cross-sectionally U-shaped guide profile (2) of a shoring element (1) (support or shoring plate) and a spreader (4) articulated by means of a support shoe (3) in the guide profile (2), the support shoe (3) consisting of a Elongated, with its longitudinal axis parallel to the longitudinal axis of the guide profile (2) and protruding into the guide profile (2), in cross-section H-shaped support profile (12), in which the H-web forms a support plate (13) which on it the spreader (4) facing the upper side (18) has a receiving device (19) for the free end of the spreader (4) and on its underside (16) facing the guide profile (2) on both sides of the longitudinal central plane of the longitudinal axis of the support plate (13) crossing perpendicularly Spreaders (4) each carry a lower compression spring unit (21) supported on the web (8) of the guide profile (2), the length of the lower compression spring units (31) being greater, than the height of the lower side cheek parts (15) of the H-shaped support profile (12) starting from the underside (16) of the support plate (13) and formed by the H flanges of the support profile (12), and the lower side cheek parts (15) intervene with play in the guide profile (2),
characterized by
that the guide profile (2) is formed by an upper and a lower wall pair (6, 7), a box-shaped pocket, consisting of two walls that are perpendicular to the web (8) and the flanges (9) of the guide profile (2) (10) for receiving the support shoe (3) educates
that the guide profile (2) on its web (8) in the perpendicular to the longitudinal axis of the pocket (10) central plane of the pocket (10) has a fixed to the web (8) bearing shell (11), the longitudinal axis perpendicular to the longitudinal axis of the guide profile (2) is directed, the bearing shell (11) receiving a cylinder piece (17) engaging in the bearing shell (11) on the underside (16) of the support plate (13) of the support profile (12),
that on the upper side (18) of the support plate (13) in alignment with the lower compression spring units (21) for each lower compression spring unit (21) a further, upper compression spring unit (22) is attached, the length of which is greater than the height of the top (18 ) of the support plate (13) starting from the H flanges of the support profile (12) formed upper side cheek parts (14) of the support profile (12)
and that in the distance between the walls of each pair of walls (6, 7) of the guide profile (2) one leg (25) of a holding bracket (24) detachably connected to the respective pair of walls (6, 7) engages, the other leg (23) as an abutment, the respective upper compression spring unit (22) overlaps on the upper side (18) of the support plate (13). Connection arrangement according to Claim 1, characterized in that each compression spring unit (21, 22) consists of helical compression springs arranged concentrically one inside the other, of which the inner compression spring (27) carries an outer compression spring (28),
that the respective inner compression spring (27) is shorter than the surrounding outer compression spring (28), but it is longer than the height of the side wall part (14 or 15) of the support profile (12) pointing away from the support plate,
that the uppermost gear on the support plate (13) of the respective outer compression spring (28) in the inner diameter this compression spring limited clear space (29) is retracted and
that the top gear of the innermost compression spring (27) at the end resting on the support plate (13) is bent by 90 ° in the longitudinal center plane of this compression spring as a bracket (30) which projects through a slot in the support plate (13) and on it is releasably attached by means of a clamping pin (31) or the like. Connection arrangement according to claim 2, characterized in that the compression springs of each compression spring unit (21, 22) are wound in opposite directions. Connection arrangement according to one of claims 1 to 3, characterized in that each bracket (24) is detachably connected to the wall pairs (6, 7) of the guide profile (2) by means of plug pins (26), split pin or the like.

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