CZ257095A3 - Gripping element for scaffold railing - Google Patents

Abstract

The proposal is for scaffolding with a rear rail, a vertical scaffold pole, a wedge having a bearing edge and a longitudinal slot running obliquely thereto and serving to clamp the rear rail and two brackets fitted on the vertical scaffold pole at the desired height for the rear rail, whereby a pin passes through the ends of the brackets and the longitudinal slot in the wedge and clamps the outer end of the rear rail between the brackets, in which between the wedge (4) and the rear rail (2, 3) there is a connecting member (10) which can be moved in a direction perpendicular to the axis of the rear rail (2, 3) and lies flat against the bearing edge (14) and the rear rail (3).

Description

Technical field

BACKGROUND OF THE INVENTION The invention relates to a railing fastener for scaffolding with a railing, a vertical scaffolding tube, a wedge having an abutment edge and an inclined longitudinal groove, wherein two shims are fastened to the vertical scaffolding tube at the desired height. the rail and the retaining plates of the railing engage the shims with their outer surfaces.

Scaffolding is usually used for larger work outside buildings where it is necessary to work at high altitude. They are mostly vertical scaffolding tubes, on which the horizontal floors are suspended, from which workers come at work. The diagonally stiffened reinforcements are used to stabilize the scaffolding, and horizontal support plates are suspended from vertical scaffolding at vertical heights on the outside of the scaffolding, which serve as a barrier to the overflow.

DE-PS 38 01 354 discloses a device for detachably fastening a railing on a vertical pipe which uses a wedge with a bearing edge and a longitudinal groove inclined against it for fastening the railing. For example, the horizontally extending and at their ends bent to each other are welded to the vertical pipe and drilled coaxially on the face to fix the wedge with the longitudinal groove by means of a screw. The flat ends of the railing are suspended between the vertical pipe and the wedge, which are fastened by hammer blows to the upper wall of the wedge. Due to the inclination of the abutting edge relative to the longitudinal groove, the end of the railing is pushed against the pipe and fixed. The tilt angle is about 10 ’and will be referred to as £.

A disadvantage of this known solution is in particular that the bearing edge bears only a small area on the railing ends, so that undesirable deformations occur when the wedge is inserted. It is also disadvantageous that in the case of vertical hammer strikes on the wedge, only a reduced force is used to fasten, since one force component deforms the pin.

It is an object of the present invention to provide such a railing fastening element in a scaffolding which firmly grips the railing without causing deformations.

SUMMARY OF THE INVENTION

The above-mentioned drawbacks are largely eliminated by the railing fastener of the scaffolding according to the invention, characterized in that a wedge drive is arranged between the wedge and the railing fixing plate, which is displaceable perpendicular to the longitudinal surface of the railing fixing plates and edge and railing mounting plate.

The main feature of the invention is that a sliding drive of the gate is arranged perpendicularly to the railing axis between the railing and the contact edge of the wedge. Since the drive rests flat on the contact surface and the railing, the pressure on these elements is reduced and thus undesirable deformations are avoided. In the range of the small angle, the swinging motion of the gate drive about the perpendicular axis with respect to the axis of the scaffolding tube is also possible and thus the railing deformation is prevented even if the corresponding bearing surface of the scaffolding is not completely vertical. In addition, the use of slightly deformed handrails is possible since the drive of the link can perform a pivoting movement until it is properly secured flat. The fastening is not affected by the swiveling effect, as the pivoting movement is not possible with a fixed wedge.

If a horizontal, outwardly directed force is applied to the railing, it is transmitted to the vertical scaffolding tube via the wedge and pin. Because rails rest on the pipe and rest against the shims, they transmit downwards and horizontally inwardly directed forces through the shims or directly onto the vertical scaffolding pipe. If they are oriented vertically upwards, they are transmitted via the actuator to the slide and its mounting in a shim. If the applied forces exceed a certain threshold value, slip occurs between the railing and the wedge. However, this threshold force is increased because the clamping force acts on the surface, whereas in the known solutions it has been divided into two components, of which now only one joint is used for clamping, reduced by a factor of cos, which is the angle of inclination of the contact edge.

The advantage of the solution according to the invention is, in particular, that the railing is securely fastened, that it does not deform and that the railing and pipes can be reused at any time.

In conventional types of scaffolding, a vertical force is applied to the wedge and one of its components on the bolt to fasten the railing, thereby reducing the clamping force on the railing. Therefore, it is recommended that the longitudinal groove of the wedge be arranged vertically and that the bearing edge is below the incline. The co-operating edge of the gate drive has an appropriate angle so that the edges fit well. Thus, when a vertical force is applied to the wedge, no deformation component acts on the wedge, and all energy is transmitted to the railing via the gate drive and the clamping force is increased by a factor of 1 / cos. The horizontally arranged upper end face of the wedge allows for fixing with a hammer.

One characteristic of the invention is that the drive of the link is coupled with a pin which is perpendicular to its movement. This pin is received in the recesses formed in the direction of movement of the drive in the shims. This allows the drive to be moved and the vertical force components are transferred to the shims. The peg allows the swing drive to be pivoted so that even slightly deformed railing pieces can be reused. A further advantage is that the upwardly directed force on the handrail rotates the drive of the link so that the wedge is pushed down and fastened.

Especially when dismantling the scaffold, direct access to the handrail fastener is sometimes impossible, so the handrail needs to be removed from some distance. In order to be able to pivot the wedge outwards, for example by means of a rod, it is advantageous, according to another feature of the solution according to the invention, that the longitudinal groove of the wedge in its lower part deviates away from the scaffold tube. Thanks to the distance between the wedge and the drive of the linkage, the railing can be easily removed from the scaffolding.

Another characteristic feature of the invention is that the distance between the longitudinal groove in the region of its deflection and the abutting edge is constant or reduced. Upon loosening, the wedge then pivots and remains pivoted outwards, creating a sufficient gap between the handrail and the drive of the gate to remove or position the handrail. Another advantage is that one person holding the railing in the middle is enough to insert the ends into the shims. In the case of conventional scaffolding, crossings occur and two people are required to put on or one person has to move from one end to the other.

In common types of scaffolding there is a risk of injury from sharp wedge surfaces. Therefore, a further feature of the present invention is that the shims are arranged in parallel and U-shaped and the open faces of the longer shingle wings are secured, for example, by welding onto a vertical scaffolding tube, the shingle inner wings being stacked and wedge , which increases work safety.

The protruding bolt heads and nuts also present a risk of injury in conventional scaffolding. In a preferred embodiment of the invention, the bolt only extends over the inner wings of the shims, so that no bolt heads or nuts are present on the surface, which increases safety.

According to another typical feature of the invention, the outer wings of the flaps are provided with coaxial holes relative to the pin. These holes facilitate the tightening of the nuts and allow the pin and / or pin to be replaced in the event of damage. The diameter of the holes is larger than the diameter of the screw or nut head.

The disadvantage of existing solutions is that the wedge must be rotated 180 ° depending on the number of railings to be fixed. In one embodiment of the invention, this problem is solved such that the longitudinal groove of the wedge is longer than the quotient between the thickness of the mounting plates and the sine of the angle between the bearing surface and the longitudinal groove. In this way, rotation becomes unnecessary because the horizontal movement of the gate drive caused by the insertion of the wedge is greater than the thickness of the mounting plates.

The angle between the bearing edge and the longitudinal groove determines the clamping force for the railing and the required length of the longitudinal groove of the wedge. If this angle is chosen too small, the clamping force is large, but a very long wedge is needed, while a large angle requires only a short wedge, but the connection may spontaneously loosen. It is a feature of the invention that the angle between the bearing surface and the longitudinal axis of the longitudinal slot of the wedge is greater than 8 ° and less than 15 °. Such an angle ensures good safety and the wedge is easy to handle.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side elevational view of a portion of a scaffold with a fastener according to the invention between a vertical scaffolding bar and two handrail retaining plates; and FIG.

An example of an embodiment of the invention

It can be seen from Fig. 1 that the vertical scaffolding tube 1 is connected to a shim 7 which serves to fasten the two flat ends of the fixing plates 2,2. The wedge 4 has a vertically extending longitudinal groove 5, in which the pin 6 provided with a nut otherwise, it is fastened to the shim 7. When inserting the wedge 4 in the vertical direction, the distance to the longitudinal groove 5 of the inclined edge 14 from the verical scaffold tube 1 is shortened until only the horizontal drive 10 engages both the edge 14 and the outer Fixing plates 3 railings. The inclined bearing edge 14 causes the vertical force to be divided into two components, the resultant of which is a perpendicularly directed force to the fixing plates, which grips them. The pin 8 is disposed in the horizontal recesses 9, thereby allowing the drive 10 of the slider only to move in the desired direction and transfer the vertical force components to the shim 7. It can be seen from the figure that upwardly directed forces acting on the mounting plates 2,2 10, whereby the wedge 4 is fastened, so that optimal locking is achieved. The upper side of the wedge 4 is horizontal, thereby facilitating hammering. Outwardly from the scaffold tube extending the lower end of the longitudinal groove 5 causes the wedge 4 to swivel outwardly as soon as the pin 6 reaches this end of the groove, so that the fixing plates 2,2 can be easily removed. The distance between the longitudinal groove 5 and the abutment edge 14 is constant in the region below the pivot point to allow rotation. In order to be able to mount one or two mounting plates 2, 3, the longitudinal groove 5 is so long that the possibility of sliding the drive 10 of the link is greater than the thickness of the mounting plates 2,3.

It can be seen from FIG. 2 that the two shims 7, 13 are U-shaped and are connected to a vertical scaffolding tube 1. The end walls of their outer wings are fixed to the scaffolding tube. The inner wings 11, 12 serve to connect to the wedge 4 and the drive 10 of the slide and increase safety since the pin 6 is protected by the outer wings. Coaxial to the pin 6 are drilled holes (not shown) in the outer wings, which facilitate replacement of the damaged pin 6 or wedge 4.

Claims (10)

Clamping element for scaffolding with scaffolding attachment plates, a vertical scaffolding tube, a wedge having an abutment edge and an inclined longitudinal groove, wherein two shims are fastened to the vertical scaffolding tube at the desired height, the end of the shims and the longitudinal groove a wedge extends through the bolt and the mounting plates extend through their outer surfaces into the shims, characterized in that between the wedge (4) and the mounting plates (2,3) there is arranged a sliding drive (10) which is movable perpendicular to the longitudinal surface of the mounting plates (2); 3) and which is flush with the contact edge (14) and the contact plate (3). The gripping element according to claim 1, characterized in that the upper end face of the wedge (4) is arranged horizontally and the longitudinal groove (5) is arranged vertically. Clamping element according to claim 1 or 21, characterized in that the drive (10) of the link is connected to its movement by a perpendicularly located pin (8), which is received in a recess (9) formed in the direction of movement of the drive (10). shims (7.13). Fixing element according to one of Claims 1 to 3, characterized in that the longitudinal groove (5) of the wedge (4) deflects away from the scaffold tube (1) in its lower part. A fastening element according to claim 4, characterized in that the distance between the longitudinal groove (5) in the region of its deflection and the abutment edge (14) is constant. Fixing element according to one of Claims 1 to 5, characterized in that the shims (7, 13) are arranged in parallel and U-shaped, the open faces of the longer wings of the shims (7, 13) being fixed to a vertical scaffold tube. (1), wherein the inner wings (11, 12) of the shims are stacked together. A fastening element according to claim 6, characterized in that the pin (6) extends over the inner wings (11, 12) of the shims (7, 13). A fastening element according to claim 7, characterized in that the outer wings of the shims (7, 13) are provided with coaxially oriented openings relative to the pin (6). Grip element according to one of Claims 1 to 8, characterized in that the longitudinal groove (5) of the wedge (4) is longer than the quotient between the thickness of the fixing plates (2,3) and the sine of the angle between the abutment surface (14) and the longitudinal the axis of the longitudinal groove (5). The fastening element according to one of claims 1 to 9, characterized in that the angle between the abutment surface (14) and the longitudinal axis of the longitudinal groove (5) of the wedge (4) is greater than 8 'and less than 15 °.