NL2009545C2 - SCAFFOLDING FALL PROTECTION. - Google Patents

Abstract

The invention relates to a safety system for people working on a building or the like, in particular to a safety system for use with a scaffold. When erecting and dismantling scaffolding, the people working on the scaffold have a poor degree of protection, if any. The invention proposes providing the people working on the scaffold with a fall protection device, whilst ensuring that they still have sufficient freedom of movement to continue their erecting/dismantling work. A preferably horizontal scaffold tube is proposed for this purpose, such as a part of a platform, which is provided with a cable which extends along substantially the entire length of the outside of said tube. The person working on the scaffold can attach himself to the cable by means of a belt and move backwards and forwards along said cable over the length of the scaffold tube.

Description

Scaffolding equipped with fall protection

The present invention relates to an architectural construction comprising a horizontal tube. When working at a higher altitude, safety measures must increasingly be taken to limit the risk of falls and / or their consequences. An example of this is found with scaffolding where high demands are placed on handrails and other protections so that the people working on the scaffolding on, for example, a building are not exposed to the danger of falling off the scaffolding.

However, these safety devices are not yet present when erecting the scaffolding or are removed when they are demolished. As a result, constructive persons are subject to a fall hazard. Moreover, this danger is great because such persons must perform all kinds of unusual actions in order to maneuver the pipes or tubes to be used in the correct position. Moreover, the structure is often not optimally stable during assembly / dismantling, which further increases the risk of falling.

On the other hand, there is a problem that if fall protection is provided, it must have considerable strength to be able to accommodate the weight increased by the speed of the falling person.

The object of the present invention is to provide a relatively light fall protection that can be easily realized and which can be used for structural constructions in which pipes are used.

This object is achieved with an architectural construction described above in that it comprises a horizontal tube provided with a fall protection, wherein said fall protection comprises a cable extending along said tube for aligning a belt or the like thereto, which tube is at one end of a opening is provided, wherein said cable extends through said opening into the interior of said tube, and wherein a free end of said cable which is located in said tube is fixed via a damper arranged in said tube.

According to the present invention, use is made of a cable which extends parallel to the tube and to which the person working on the scaffolding can be secured with an eye belt. This gives him freedom of movement along the entire length of the tube.

2

Due to the presence of the spring which is connected to a cable end, in the event of a fall, the shock load created on the cable will be damped and converted into a bending load on the tube. As a result, on the one hand, the fall is damped and, on the other hand, lower requirements can be imposed on the strength of the tube.

Moreover, because one or preferably both openings for the cable are located near the ends of the tube, the moment that is created by the falling force will be relatively small and can be directly via, for example, the coupling of a horizontal tube in the rest of the construction such as a scaffolding.

The damper can convert a structure that dampens the length of the cable outside the tube 10. Examples are a friction damper and / or a spring.

As described above, it is possible to always provide an opening at opposite ends of the tube through which a cable end always extends. Preferably, each cable end is connected to only a single spring. Preferably, the spring tension is such that, in the position of use, that is to say without applying a load, the cable extends as tightly as possible along the tube. The spring used can be both a tension spring and a compression spring. In the case of a tension spring, the cable ends are always attached thereto at the end of the spring. In the case of a compression spring and more particularly a coil spring, the cable ends extend through the interior of such a coil spring and are supported on the coil spring at opposite ends. With a compression spring, the deflection of the spring can be limited to touching the windings of the spring.

The openings in the tube can be relatively simple in design. However, in order to reduce frictional braking at the opening of the cable as much as possible, cable guides are provided according to an advantageous embodiment of the invention. These cable guides can for instance comprise plastic parts whereby a pulling movement on the outside of the tube is directly converted into a pulling movement on the inside of the tube on the cable. According to a special embodiment, such a guide comprises a wheel.

Although the invention has been described above with reference to a scaffolding tube, it will be understood that the tube can also be designed in a different manner depending on the construction in which the fall protection according to the invention is provided.

In the case of a scaffolding tube, it is preferably provided with a coupling at both ends.

3

In a preferred embodiment of the present invention, such a scaffolding tube forms part of a platform which is arranged between two uprights of a scaffolding construction and on which the working persons can walk. However, it is also possible to provide other types of scaffolding tubes with the present invention.

Instead of the scaffolding described above, any other type of construction can also be provided with the fall protection tube described above.

The present invention also relates to a method for erecting a scaffold comprising providing a number of vertical and horizontal scaffolding tubes and connecting them together, one of the higher of said horizontal scaffolding tubes being provided with a parallel connected thereto cable extending therefrom, attaching to said cable a belt connected to the builder of said scaffolding, said builder being able to move along said cable with said belt.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. Show:

FIG. 1 schematically a scaffolding with a person working thereon;

FIG. 2 schematically shows the further construction of the scaffolding.

FIG. 3 shows the scaffolding tube according to the invention partially cut away in detail; and FIG. 4 shows the scaffolding tube according to FIG. 2 when applying a force.

In Fig. 1, a scaffolding is indicated in its entirety by 1. This consists of uprights 2. These can, for example, be a whole with transverse parts 3, so that a (part of) a scaffolding construction can be obtained with the aid of longitudinal parts such as a tube 27 (Fig. 3) and cross connections. A platform 4 can come to rest on the transverse parts 3 on which a person 9 can act. The platform 4 consists of two tubes 7 extending in parallel, between which cross pieces can be present and wherein each of the tubes 7 is provided with a coupling 8 at the end thereof. In the example shown, the scaffolding 1 is erected. The person is connected via a harness 10 and belt 11 which is provided with a ring or hook 12 at the free end with a line or cable 6 extending parallel to tube 7 of the platform shown in Fig. 1. Fig. 2 shows the situation after applying a next layer including a further platform 24. In addition to this platform 24, the tube 27 is provided which serves as a handrail, so that the situation on the platform 4 is safe. In that 4 state the person on the lower platform moves his attachment with ring or hook from the lower platform 4 to the cable 6 of the upper platform 24. After that person 9 can get on the upper platform 24 and there the further construction of the scaffolding realize. The person is safely secured under all circumstances and has maximum freedom of movement.

Fig. 3 shows an example of the tube 7 of a platform 4 or 24 which is shown cut away. It is visible that the tube is provided with couplings 8 at its ends. It will be understood that these couplings can be designed differently or that depending on the application such couplings cannot be present or can only be present unilaterally.

The tube 7 is provided with openings 15 near the ends thereof. Cable guides such as wheels 14 are arranged therein. The cable 6 extends through these openings 15 along the wheels 14 on either side into the interior of the tube. A coil spring 16 is thereby arranged in the interior of the tube. The cable ends 15 extend through the interior of the coil spring so that cable end 17 is connected to the left end (in Fig. 3) of the coil spring and cable end 18 to the right end. The coil spring may be supported in any way or may be mounted loosely in the tube.

The bias of the coil spring or the shortening of the cable or line 6 is designed such that in the unloaded state cable 6 runs relatively tightly along the tube on the outside thereof. There is always sufficient possibility for free movement of a ring or hook 12 to which the belt 11 of person 9 is attached.

Fig. 4 shows diagrammatically the situation in the event of an unforeseen fall. In the part 25 of the cable 6 which is located on the outside of the tube, a force F is generated by the fall, as a result of which the cable is pulled out. This happens against the action of the spring force of the coil spring 16 which compresses as shown in Figure 3. As a result, the fall is damped by means of the coil spring and the load caused by the fall is introduced more gradually and with fewer peaks into the tube 7 and subsequently discharged into the further construction 1. A relatively light construction for tube 7 can hereby suffice, so that it can be arranged in a simple manner without too much effort. With the aid of the present invention it is possible to provide fall protection without further modification to the construction. Instead of the spring described above, a friction damper or the like can be used as the damper, the peak load being damped accordingly.

Claims (14)

An architectural construction (1) comprising a horizontal tube (7) provided with a fall protection, wherein said fall protection comprises a cable (6) extending along said tube 5 for aligning a belt (11) or the like thereto, which tube adopts an end is provided with an opening (15), wherein said cable (6) extends through said opening into the interior of said tube, and wherein a free end (17; 18) of said cable (6) extending into said tube is fixed via a damper (16) arranged in that tube. 10 A construction as claimed in claim 1, wherein said damper comprises a part realized by increasing the length of the cable (6) located outside the tube. 3. Construction as claimed in any of the foregoing claims, wherein said damper comprises a spring 15. 4. Construction as claimed in any of the foregoing claims, wherein said tube is provided with an opening at opposite ends, wherein a cable end extends through each opening. 20 The structure of claim 3, wherein each cable end (17; 18) is connected to one end of said spring (16). 6. Construction as claimed in any of the foregoing claims, wherein said cable (6) is kept tensioned by said spring (16) in an unloaded state. A construction according to any one of the preceding claims, wherein said spring (16) comprises a coil spring and wherein a free end (17; 18) of said cable (6) extends through the interior of said coil spring. 30 A construction according to any one of the preceding claims, wherein said opening (15) in said tube comprises a cable guide (14). The structure of claim 8, wherein said cable guide comprises a wheel. A construction according to any one of the preceding claims, wherein said tube is provided with a coupling (8) at its free ends. 5 11. Construction as claimed in any of the foregoing claims, wherein said tube comprises a scaffolding tube. 12. Construction as claimed in any of the foregoing claims, wherein said tube is part of a platform. A construction as claimed in any one of the preceding claims, comprising a scaffold with horizontal and vertical tubes coupled to each other. A method for erecting a scaffolding (1) comprising providing a plurality of vertical and horizontal scaffolding tubes and connecting them together, one of the higher (7) of said horizontal scaffolding tubes being provided with a parallel to it connected thereto extending cable (6), attaching to said cable a belt (11) connected to the bodybuilder (9) of said scaffolding (1), wherein said bodybuilder can move with said belt along said cable (6).