AT525639B1 - FALL PROTECTION - Google Patents

Abstract

Fall protection comprising posts (3) for horizontal attachment of tubular handrails (4) and/or knee rails (4'), and brackets (1) to which the posts (3) can be attached, the posts (3) being telescopic in height are. It is proposed here that the cantilevers are each formed by a plurality of shaped blocks (i.i; i=1, 2, ... N), which can be joined together to form a shaped block chain, and the posts (3) are provided with a fastening section (B ) of the respective post (3) can be inserted into the mold blocks (1.i), the handrails (4) and/or knee rails (4') being telescopic in length and lockable in an adjustable length. The invention thus provides fall protection which can be adjusted quickly and flexibly in terms of its structural height and structural length. In this way, problems with the shading of energy generation systems such as photovoltaic systems or solar collectors on building roofs can be avoided.

Description

Description

The invention relates to fall protection comprising posts for the horizontal attachment of tubular handrails and/or knee rails, and brackets to which the posts can be attached, with the posts being telescopic in height, according to the preamble of claim 1.

Fall protection of the type mentioned are also referred to as side protection systems and are used to secure people when working on structures, such as maintenance work on buildings, where they are either set up temporarily, or can remain permanently on the building. Fall protection devices of the type mentioned have been described in AT 521.813 A1, AU 2016216660 A1 and US Pat. No. 5,188,342 A, for example. As a rule, they are installed in the area of the edge of a structure by initially placing outriggers on the structure and weighing them down with weights and thus fixing them. The posts are attached pivotably to the outriggers, so that the posts can be pivoted from an articulated transport position into a vertical position of use and subsequently locked in the position of use. Thereafter, the tubular handrails and knee rails can be inserted into the tube mounts of the posts and the tube mounts can be fixed to the posts using their own fasteners. An additional skirting board can also be provided.

Such a fall protection system is also referred to as a balustrade system and is described, for example, in the applicant's Austrian Patent AT 521,813, the posts and the booms being telescopic in length and being pivotably connected to one another via a joint part. Due to the fact that it can be locked in angular positions that deviate from a vertical position of use, the fall protection can be designed, for example, on a roof of a building in such a way that it is no longer or hardly recognizable from the street, in that the posts are not in one with the outriggers vertical position of use are swung up, but in an angular position in which they enclose an acute angle to the boom. However, since a minimum height in the vertical direction must still be maintained, the posts are designed to be telescopic in length. Since a torque is also generated, particularly with vertical loads, which has to be dissipated to ensure standard-compliant load-bearing capacity, the booms are also designed to be telescopic in length. This version also has the practical advantage that it allows standard-compliant installation on a sloping surface or in confined spaces. In addition, they also allow gradient compensation for different gradients in the installation area.

However, problems arise due to the shading of energy generation systems such as photovoltaic systems or solar collectors, which are increasingly being built on building roofs, by fall protection systems, especially with permanently remaining fall protection systems. The shadow cast by fall protection systems on photovoltaic systems or solar collectors can significantly impair their efficiency.

It is therefore the aim of the invention to provide a fall protection system that allows problems with the shading of energy production systems such as photovoltaic systems or solar panels on building roofs to be avoided.

This object is achieved by the features of claim 1. Claim 1 relates to a fall protection system comprising posts for horizontal attachment of tubular handrails and/or knee rails, and booms to which the posts can be attached, with the posts being telescopic in height. According to the invention, it is proposed that the extension arms are each formed by a plurality of shaped blocks that can be joined together to form a chain of shaped blocks, and that the posts can be inserted into the shaped blocks with a fastening section of the respective post, with the handrails and/or knee rails in their length are telescopic and can be locked in an adjustable length. The fall protection according to the invention is in its vertical construction height and in its horizontal construction length

quickly and flexibly adjustable. The adjustability of the body height is based on telescoping posts, each of which is inserted into an extension designed as a molded block, for example in a corresponding hole in the molded block. However, the post can also simply be pulled out of the molded block again, for example to change the assembly length of the fall protection. For this purpose, according to the invention, the handrails and knee rails are designed to be telescopic and lockable in length. The adjustable body length makes it possible to set up the fall protection in the required body length in accordance with standards, and if not required, to shorten it again in such a way that shading of energy-technical systems is avoided. This may be accomplished, for example, by relocating an end of the lifeline by pulling the affected end post out of the mold block, shortening the length of the affected end handrails and knee rails using their telescoping design, and relocating the end of the lifeline to a corresponding location prepared mold block is inserted. The form blocks used can remain in each case in order to enable a quick extension of the fall protection if necessary. This conversion can be carried out quickly and easily. Gaps in the fall protection can also be easily created to avoid shadows by separating the handrails and knee rails, which are connected to one another, from the shading post, disconnecting the plug-in connections of the handrails and knee rails at the affected point and shortening the shading post as described above the handrails and knee rails are offset. Such a conversion can also be carried out quickly and easily. In addition, the anti-fall device designed according to the invention also has the advantage that it is no longer or hardly recognizable from the street.

The mold blocks in which the posts are inserted are loaded primarily by torque. These torques must be safely absorbed by the boom. For this purpose, according to the invention, mold blocks that can be joined together are proposed, which, depending on the number of mold blocks used, form a variable length of the cantilever designed as a mold block chain. In this way, the boom can be adapted to different installation heights of the fall protection. The greater the installation height of the fall protection system, the longer the jib must also be made by adding shaped blocks to the shaped block chain. Due to their own weight, the mold blocks form a weight that safely absorbs the torques exerted by the posts. In particular, the mold blocks can each be cuboid and can be joined to one another at their respective end faces, for example by means of a dovetail connection. The mold blocks can be made of concrete, for example, and have a bore for receiving the attachment portion of the posts.

With regard to the telescoping post, it is proposed according to a first embodiment that the posts are each formed from an outer sleeve in which a middle sleeve is mounted telescopically and lockable with the outer sleeve, and an inner sleeve is mounted telescopically and lockable with the middle sleeve in the middle sleeve is, wherein at a telescoping end of the middle sleeve a first tube holder for a handrail or knee rail is attached, and at a telescoping end of the inner sleeve a second tube holder for a handrail is attached.

According to a second embodiment it is proposed that a telescoping portion of the post via a joint part from an upright position in inclined angular positions to the attachment portion of the post is pivotable and lockable articulated on the attachment portion. The articulated part allows the telescoping section of the post to pivot in relation to the boom designed as a molded block chain, the articulated part being part of the post and ensuring that the telescoping section of the post can be pivoted relative to the fastening section of the post. As a specific embodiment, it is proposed that the telescoping section of the post can be locked in an upright position and in three inclined angular positions on the fastening section of the post. One possibility is the inclined angular positions at an angle of 14°, 22° and 30°

provided for upright position. In addition, it is proposed that the telescoping section of the post is formed from an outer sleeve in which an inner sleeve is mounted telescopically and lockable with the outer sleeve, the telescoping section being articulated on the joint part via the outer sleeve.

The design with an inner sleeve and an outer sleeve makes it possible to provide a first tube mount for horizontal attachment of the tubular handrails and/or knee rails on the outer sleeve, and a second tube mount for horizontal attachment of the tubular handrails on the inner sleeve. Since the inner sleeve can be telescoped relative to the outer sleeve, the second tube mount is therefore an upper mount for a handrail. The first tubular mount on the outer sleeve is thus a lower mount for a lower handrail or knee rail. By pushing out the inner sleeve, the installation height of the fall protection can be increased from around 50cm to around 150cm. The assembly height can also be adjusted by swiveling the posts into the inclined angle positions. As already mentioned, the jib can be adapted to different installation heights of the fall protection system by adding or removing shaped blocks to the shaped block chain. The greater the installation height of the fall protection, the longer the boom must be designed.

[0011] In order to also enable an automated adjustment of the construction height, it is proposed that the posts be telescopic hydraulically, pneumatically or electrically. This allows, for example, a time of day-dependent, automated control, or a manually controlled setting via a remote control.

The invention is explained in more detail below with reference to exemplary embodiments with the aid of the accompanying figures. It shows the

1 shows a first embodiment of a post for a fall protection according to the invention,

2 shows a front view of a first embodiment of a fall protection according to the invention,

3 shows a view of the fall protection according to FIG. 2 seen from above, [0016] FIG. 4 shows a side view of the fall protection according to FIG. 2,

Figure 5 is an enlarged view of detail A framed in Figure 2,

[0018] FIG. 6 shows a sectional view according to section I-1 drawn in FIG. 5,

[0019] FIG. 7 shows a second embodiment of a post with a joint part for a fall protection device according to the invention,

8 shows a front view of a second embodiment of a fall protection according to the invention,

9 shows a view of the fall protection according to FIG. 8 seen from above, [0022] FIG. 10 shows a side view of the fall protection according to FIG. 8,

Figure 11 is an enlarged view of detail A framed in Figure 8,

[0024] FIG. 12 is a sectional view according to section I-1 drawn in FIG.

Reference is first made to FIGS. 1 to 6, which show a first embodiment of a fall protection device according to the invention. It includes boom 1, which are usually placed on the structural facility in the attic of a structural facility. The cantilevers 1 are each formed by a plurality of mold blocks 1.i (i=1,2, . In the exemplary embodiment shown in FIGS. 2-6, a boom 1 is formed, for example, from three mold blocks 1.1, 1.2, 1.3, which are made as concrete blocks, for example. The number of joined form blocks 1.i and

thus the length of the boom 1 will be chosen according to the strength of the expected loads. For example, the higher the fall protection should be, the longer the boom 1 will be designed. The mold blocks 1.i are loaded primarily by torque. These torques must be safely absorbed by the boom 1.

On the boom 1 post 3 are attached, the post 3 can be inserted into the boom 1, for example in corresponding holes 7 of the mold blocks 1.i. In the embodiment of FIGS. 2-6, the posts 3 are inserted, for example, in the foremost molded block 1.1 in order to be able to arrange the fall protection as close as possible to the parapet. The horizontally extending handrails 4 and/or knee rails 4' are fastened to the posts 3 by means of tubular brackets 5a, 5b (see especially FIG. 1). The handrails 4 and/or knee rails 4' are tubular and can be lengthened by plugging several handrails 4 and/or knee rails 4' into one another. However, the handrails 4 and/or knee rails 4' are also designed to be telescopic and lockable at an adjustable length. In FIG. 3 it can be seen, for example, that the handrail 4 is formed from two parts that can be pushed into one another, with a spring-loaded locking device of the inner part being able to engage in locking bores 8 of the outer part. The overall length of the handrail 4 can therefore be variably adjusted.

The tubular handrails 4 and/or knee rails 4' are fixed to the uprights 3 by means of tubular brackets 5a, 5b, which tubular brackets 5a, 5b are in turn detachably fixed to the vertical uprights 3 by means of a fastener 9. A possible embodiment of such pipe holders 5a, 5b is shown in FIG. In the embodiment shown, the fastening means 9 is a screw which passes through a bore provided in a shank-like fastening section of the pipe holders 5a, 5b. The shaft-like fastening section of the pipe holders 5a, 5b transitions into an arc-shaped holding section for receiving the tubular handrails 4 and/or knee rails 4', which opens upwards. Together with the post 3, the curved holding section forms a secure receptacle for the tubular handrails 4 and/or knee rails 4'.

For a telescopic design of the post 3, the posts 3 in the embodiment shown in FIGS. 1-6 are each formed from an outer sleeve 3a, in which a central sleeve 3b is mounted telescopically and lockable with the outer sleeve 3a. In turn, an inner sleeve 3c is telescopically mounted in the middle sleeve 3b and can be locked with the middle sleeve 3b. The locking is ensured in each case by means of a U-shaped latching element 10 of the respective inner sleeve, which detachably engages in a corresponding receptacle of the respective outer sleeve. Due to the telescoping construction of the post 3, different construction heights of the fall protection can be realized. The outer sleeve 3a forms with its lower end in the position of use a fastening section B of the respective post 3, with which the respective post 3 can be inserted into the mold blocks 1.i. A first, lower tube mount 5a for a lower handrail 4 or a knee bar 4' is attached to an upper end of the middle sleeve 3b, and a second, upper tube mount 5b for an upper handrail 4 is attached to an upper end of the inner sleeve 3c. Furthermore, screw bolts 11 protruding from the outer sleeve 3a can be seen in FIG. 1, which serve to fasten a skirting board 12 (see FIG. 2). As can be seen in particular from FIGS. 5 and 6, the skirting board 12 in the exemplary embodiment shown can be fastened to these bolts 11 on the outer sleeve 3a by means of fastening plates 13 on both sides, in that the fastening plates 13 are placed on the bolts 11 and nuts are fastened to the Bolts 11 are screwed on, are fixed.

In the following, reference is made to a second embodiment, which is illustrated in FIGS. The boom 1 are in turn formed from three mold blocks 1.1, 1.2, 1.3, which are made, for example, as concrete blocks.

The number of joined form blocks 1.i and thus the length of the boom 1 is in turn selected according to the strength of the expected loads.

On the boom 1 post 3 are attached, the post 3 can be inserted into the boom 1, for example in corresponding holes 7 of the mold blocks 1.i. In the

In the embodiment of FIGS. 7-12, the posts 3 are in turn inserted in the foremost mold block 1.1. The horizontally extending handrails 4 and/or knee rails 4' are fastened to the post 3 by means of tube holders 5a, 5b (see especially FIG. 7). The handrails 4 and/or knee rails 4' are tubular and can be lengthened by plugging several handrails 4 and/or knee rails 4' into one another. However, the handrails 4 and/or knee rails 4' are also designed to be telescopic and lockable at an adjustable length. In FIG. 9 it can be seen, for example, that the handrail 4 is formed from two parts that can be pushed into one another, with a spring-loaded locking device of the inner part being able to engage in locking bores 8 of the outer part. The overall length of the handrail 4 can therefore be variably adjusted. The tubular handrails 4 and/or knee rails 4' are attached to the uprights 3 by means of tubular brackets 5a, 5b as described with reference to Figures 1-6.

For a telescoping design of the post 3, the posts 3 in the second embodiment according to FIGS first embodiment of Figs. 1 to 6 but now without a central sleeve 3b. The locking is ensured by means of a U-shaped locking element 10 of the inner sleeve 3c, which detachably snaps into a corresponding receptacle in the outer sleeve 3a. Due to the telescoping construction of the posts 3, in turn, different construction heights of the fall protection can be realized.

The outer sleeve 3a and the inner sleeve 3c form a telescoping section of the post 3, which can be pivoted and locked via a joint part 14 from an upright position into inclined angular positions relative to a base part 15 of the post 3. In this second embodiment, the base part 15, with its lower end in the position of use, forms the fastening section B of the respective post 3, with which the respective post 3 can be inserted into the mold blocks 1.i. A first, lower tube holder 5a for a handrail 4 or knee rail 4' is fastened to an upper end of the outer sleeve 3a, and a second, upper tube holder 5b to an upper end of the inner sleeve 3c. Furthermore, screw bolts 11 protruding from the base part 15 can be seen in FIG. 7, which in turn serve to fasten a skirting board 12 (see FIG. 8). As can be seen in particular from FIGS. 11 and 12, the skirting board 12 can also be attached to the base part 15 by means of fastening plates 13 on both sides of these screw bolts 11 in the second exemplary embodiment, in that the fastening plates 13 are pushed onto the screw bolts 11 and fastened with nuts that are on the Bolts 11 are screwed on, are fixed.

In the following, reference is made in particular to FIGS. 11 and 12. In the exemplary embodiment shown, the joint part 14 is designed in such a way that the telescoping section of the post 3 can be locked in an upright position and in three inclined angular positions relative to the base part 15 of the post 3 . For this purpose, the articulated part 14 is designed, for example, as a base plate 14a protruding from the base part 15, to which an articulation plate 14b protruding from the outer sleeve 3a is articulated via an articulated connection 16. The articulation plate 14b also has three openings into which a spring-loaded catch of the base plate 14a can engage in a releasable manner. Depending on the selection of the opening for the spring-loaded lock, the articulation plate 14b can be brought into different angular positions relative to the base plate 14a, and thus the telescoping section of the post 3. In the exemplary embodiment shown, for example, inclined angular positions can be at an angle of 14°, 22° and 30° to the upright position can be realized (see Fig. 12).

The fall protection according to the invention can be adjusted quickly and flexibly in terms of its structural height and structural length, as described. In this way, problems with the shading of energy generation systems such as photovoltaic systems or solar collectors on building roofs can be avoided.

Claims (8)

patent claims 1. Anti-fall protection comprising posts (3) for horizontal attachment of tubular handrails (4) and/or knee rails (4'), and brackets (1) to which the posts (3) can be attached, the posts (3) being height-adjusted are each telescopic, characterized in that the cantilevers are each formed by a plurality of shaped blocks (1.i; i=1,2,...N) which can be joined together to form a shaped block chain, and the posts (3) can be inserted into the shaped blocks (1.1) with a fastening section (B) of the respective post (3), the handrails (4) and/or knee rails (4') being telescopic in length and lockable in an adjustable length. 2. Anti-fall device according to claim 1, characterized in that the mold blocks (1.i) are each cuboid and can be joined together at their respective end faces. 3. Fall protection according to claim 1 or 2, characterized in that the posts (3) are each formed from an outer sleeve (3a), in which a central sleeve (3b) is telescopically mounted and lockable with the outer sleeve (3a), and in the middle sleeve (3b), an inner sleeve (3c) is mounted telescopically and lockable with the middle sleeve (3b), with a first tubular holder (5a) for a handrail (4) or a knee bar (4') on a telescoping end of the middle sleeve (3b). is attached, and a second tube holder (5b) for a handrail (4) is attached to a telescoping end of the inner sleeve (3c). 4. Anti-fall device according to Claim 1 or 2, characterized in that a telescoping section of the post (3) can be pivoted via a joint part (14) from an upright position into inclined angular positions relative to the fastening section (B) of the post (3) and can be locked on the fastening section ( B) is hinged. 5. Anti-fall device according to claim 4, characterized in that the telescopic section of the post (3) can be locked in an upright position and in three inclined angular positions on the fastening section (B) of the post (3). 6. Fall protection according to claim 4 or 5, characterized in that the telescoping section of the post (3) is formed from an outer sleeve (3a), in which an inner sleeve (3c) is telescopically mounted and lockable with the outer sleeve (3a), the telescoping section being articulated on the joint part (14) via the outer sleeve (3b). 7. Anti-fall device according to claim 6, characterized in that a first tubular holder (5a) for horizontal attachment of the tubular handrails (4) or knee rails (4) is provided on the outer sleeve (3a), and on a telescoping end of the inner sleeve (3c) a second tubular support (5b) for horizontally fixing the tubular handrails (4). 8. Fall protection according to one of claims 1 to 6, characterized in that the posts (3) are hydraulically, pneumatically or electrically telescopic. 4 sheets of drawings