FR2956684A1 - Device for fixing platform against support wall during construction of artificial stone building to form security gateway, has integration pins traversing two vertical tubular hollow shafts and vertical posts - Google Patents

Abstract

The device has two vertical tubular hollow shafts (10) connected to a posterior girder (4). Interchangeable and removable anchoring units i.e. fixing bodies (11, 111), are equipped with vertical posts (21, 121) engaged in one of the hollow shafts of a platform (1). One of hook shaped parts i.e. horizontal arms (22-26, 122), projects towards a rear of the platform and is conformed based on a part on which the hook shaped part is anchored. Integration pins (12) traverse the two hollow shafts and the vertical posts.

Description

The invention relates to a device for fixing a platform against a wall. In the construction of various cast concrete buildings, it is known to fix cantilever against the outer walls, previously cast and removed, platforms protruding outwards. Each platform comprises a horizontal frame which, supporting a floor, has at least one rear spar, an anterior spar and connecting cross members to the previous. The various platforms form around the building under construction a bridge which, lined by railings, allows staff to work and circulate without risk of falling. These platforms can also be support surfaces for panels, used for the formwork of the next upper wall, for piles or piers, and for any other equipment involved in safety or construction. They can also be used for clipping beams onto piles or poles, and forming reception areas for the supply of materials and materials between levels. In general, the fixing of each platform against a wall is provided by at least two hooks which are fixed against the wall and have a U-shape open upwards in which the rear spar of the platform is engaged and locked. Although this method of attachment is widely used because of its simplicity and hardiness, allowing it to withstand the harsh conditions encountered on construction sites, it has, on the one hand, the disadvantage of moving away from the platform of the wall, at least the thickness of the hooks, allowing the fall of various materials through the interstice created, and, secondly, promotes the creation of a tilting torque down the platform , making it essential to use support legs against the wall. The object of the invention is to provide a platform attachment device that overcomes these two disadvantages and allows to fix the platform against any wall. According to the invention, the fixing device comprises: at least two vertical tubular sleeves, connected to the posterior spar, opening at least upwards and extending upwards to a horizontal level greater than that of the platform, - Interchangeable and removable fastening members, each comprising a vertical upright, adapted to be engaged in one of the vertical sleeves of the platform, and a hook-shaped portion which, projecting towards the rear of this platform, is shaped according to the part on which it must hang, - and securing pins each able to cross a vertical sleeve 10 and the amount it contains. This device has many advantages. The first is that maintaining the platform by members clinging to the wall at a level higher than that of the platform frame, this frame normally comes to bear against the wall without generating a tilting torque, so that the 15 footbridge can be dispensed from lower support legs. The second advantage is the consequence of the removable nature of the fasteners, since it consists of a general reduction in the size of the platform provided by the disassembly of the organs before moving, transport and storage of the platform. The third advantage is provided by the through character of the sleeves which opposes any accidental retention of liquid concrete that can ensure its closure. In one embodiment of the invention, the fastening members are part of series of organs differing in the height of the uprights and in the shape and length of the hooks. This arrangement makes it possible to quickly adapt the attachment means according to the structure of the attachment wall. Thus, by simply replacing the amounts, the same platform can be suspended on a spandrel, on a parapet and even directly on a slab, but also on a metal structure. In the presence of a metal structure having triangulation bars, providing support points arranged at different heights, the amounts of the hooking members of the same platform have different lengths each corresponding to the distance between the point of contact. attachment provided on the structure and the platform, when the latter is substantially horizontal. In another embodiment relating to the fixing of a bridge encircling the shaft of a tower crane, the said bridge is composed of two monolithic elements flanking the barrel and each having, in view from above, a U-shape of which the soul comes against the shaft and whose ends of the wings are opposite those of the other element, while the fixing device comprises, on each of the two U-shaped elements, at least two vertical sleeves spaced apart from each other; reception of fastening members, these sleeves being fixed against the inner edge of the soul of the element. Thanks to this construction, the installation of a bridge on the shaft of a tower crane is very easily and very quickly made in all points of the height of the barrel and this, without it being necessary to comply especially the barrel to facilitate fixation. Other features and advantages of the invention will emerge from the description which follows with reference to the appended schematic drawing showing several embodiments of the invention. Figure 1 is a side view with partial section of a first embodiment of the platform with two models of attachment member; Figures 2 and 3 are elevational side views showing two attachment modes of the platform of Figure 1; Figure 4 is an elevational side view showing the application of the attachment device to a reportable bridge on the shaft of a tower crane, Figure 5 is a sectional view along V-V of Figure 4; Figure 6 is a partial plan view from above of an embodiment of the frame of the platform of Figures 4 to 5; Figure 7 is a side view in section along VII-VII of Figure 6 and on an enlarged scale; Figure 8 is a partial perspective view showing an alternative embodiment of a vertical channel. Figures 1 to 3 show a platform 1 used in the construction of buildings to form gangways for securing staff and supporting the panels used for formwork vertical walls. In known manner, each platform 1 is composed of a horizontal frame 2 formed by at least one anterior spar 3, a rear spar 4 and crosspieces 5. The rear spar 4 is doubled by a lower spar 6 which, usually, cooperates with hooks fixed in the wall. The chassis 2 receives a floor 7 and its front edge comprises means for fixing a protective barrier 8. According to the invention, the means for attaching the frame 2 to a wall comprise: at least two vertical sleeves 10 opening towards upwards and downwards and fixed, for example by welding, on the edge of its rear longitudinal members 4 and 6, two attachment members 11 or 111, and two pins 12.

In the embodiment shown, the sleeves 10 consist of metal tube sections having a rectangular section whose largest dimension is parallel to the crosspieces 5, to present a larger inertia module in this direction. FIG. 1 clearly shows that the upper end of each sheath 10 exceeds a value d of the upper face of the floor 7 and that it is traversed right through by a bore 13, able to receive the transverse peg 12 ensuring the fastening with fastening members 11. FIG. 1 also shows that the lower ends of the tubular sleeves 10 may, in certain applications, be extended by support legs 14 which, articulated on them at 15, are each reinforced by a compass 16. Figure 8 shows that, in an alternative embodiment, the metal tubes constituting the vertical sleeves 10 are replaced by metal profiles 17 having a U-shaped cross section whose core 17a is welded to the longitudinal members 4 and 6. The wings 17b of this profile 17 are traversed by bores 13 for receiving the pin 12, but also by holes 18 for transverse bolts 19 delimiting , with the core 17a and the wings 17b of the profile, a vertical channel 110 for receiving the fastening members 11 or 111. Each attachment member 11 or 111 comprises an amount 21, 121 capable of penetrating into a channel 10 or 110 and having, like him, a rectangular cross-section. At its upper end the amount is secured to a horizontal arm 22 or 122, giving it the general shape of a bracket. The member 11 which, as shown in FIG. 3, is intended to bear on a sill 23, is provided at the end of its arm 22 with a return 24, bent downwards and giving it the configuration of 'a hook.

The horizontal arm 122 of the member 111 intended to hang on a slab 25, as shown in Figure 2, has near its end a vertical finger 26 adapted to be engaged in a well 27 drilled in the slab 25. In In practice, the attachment members 11, 111 are part of a series of members differing in the height of the uprights 21, 121, the length of the arms 22, 122 and the shape and length of the returns 24 or fingers 26. forming the hooks. This makes it possible to use the same platform in many applications by replacing only the members 11, 111, which are inexpensive parts and easily adaptable to the instantaneous needs of a construction.

Of course, after being placed in a vertical channel 10, 110, each upright 21 or 121 is wedged in vertical translation with the platform by at least one pin 12, passing through the walls of the channel and those of the upright. This provides a monolithic assembly, easily movable by a crane or other hoist to bring his hooks above the catchment area and put it on this area. FIG. 3 shows that, when the platform is in the hooking position, the tubular sleeves s10 bear against the lighter 23, which has the advantage, with the upper holding by the hooks 22 and 24, of ensuring a perfect hold of the platform without communicating to it a tilting torque down the wall gap. As a result, it is not essential to add the support legs 14 and the compass 16 to the platform.

The proximity of the platform to the wall against which it is attached also has the advantage of eliminating any gap that can pass objects and various waste likely to injure staff traveling to the lower levels.

The hooking shown in Figure 2, have the same advantages as that of Figure 3, and it is only for safety and in anticipation of the introduction of heavy loads near the outer edge of the platform that the platform is provided with telescopic support legs 14 extending downwards, until contact with an element of the construction, in this case the lower slab 25. The possibility of securing a platform by hooking to a level higher than its own , replacing a fixation by rest on lower support hooks, opens many applications. In particular, this allows the realization of reportable platforms at all levels of the shaft of a tower crane, for example to install a temporary assistance equipment at a construction site. In FIGS. 4 and 5, representing the top of a tower crane, the reference 32 designates the top of the 31 shaft 31 of the tower and 33 a frame extending the shaft and carrying the pivot 34 of the boom 35. This frame carries mechanical means, such as motor means, not shown, controlling the pivoting of the boom 35 in the horizontal plane. It is also equipped with a straight gangway 36 which, shown in phantom, ensures the maintenance with all the safety that is appropriate for staff. Access to this gateway 36 is provided by a ladder 37 disposed inside the tower and by an external ladder 38 carried by the frame 33. The gateway 36 is narrow and insufficient to install additional equipment, such as a concrete transfer pump and possibly a person in charge of its control, so that this equipment must remain on the ground, which limits its use.

This problem is easily solved by the platform according to the invention which, as shown in FIGS. 4 and 5, can easily be hooked to the top 32 of the barrel 31 or to any other zone of this barrel to receive any equipment, any equipment and any personnel. of maintenance .

In this application, the platform is composed of two identical elements A and B, having, each and seen from above, the general shape of a U adapted to engage on the shaft of the tower until the ends wings almost touch those facing them. Each of the elements A and B is composed of a metal frame 42 to which is attached a lattice 43, expanded metal mesh fine mesh forming the floor. Figure 5 shows that the two frames 42 are structured to form a square ring defining an interior space for the passage of the shaft 31 and, therefore, is composed of a core 42a and two wings 42b. Each frame 42 carries on its outer periphery vertical tubular sleeves 44 for receiving the legs of the uprights 45 of a removable barrier 52 of protection. In addition, and as shown in detail in Figure 7, each frame 42 carries, on the inner edge of its core 42a, at least two vertical sleeves 46, in which are fitted and fixed by bolting the amounts 21 of the shackles . In this application each of the members 21 is provided at its upper end with a hook 22 and 24, adapted to cap a peripheral belt 49 formed at the top of the barrel 31. When an element A or B of the platform is hooked on the belt 49 its mass tends to tilt in the direction of the arrow 51 of Figure 4, until the veneer 21 and the soul of the element against the barrel. At the end of positioning, the ends of its wings 42b of the element are close to those of the other element and thus ensure the securing of the assembly, without it being necessary to make an additional connection between the two elements. FIGS. 6 and 7 show that the belt 49 of the barrel 1 comprises receiving holes for transverse bolts 50 for fastening the bent return 24 of each upright 21. It is obvious that the length of the uprights 21 is determined in such a way that a man can move standing under the arrow 35. It follows from the foregoing that the installation of the bridge requires only lifting operation of each of its two elements A and B, and then, after hanging on the upper edge 49 of the barrel 31, a locking operation by placing the connecting bolts 50 with the barrel. When the platform is installed, the staff can use it to safely access the service ladder 38, but also to circle the shaft 31 for example to intervene on the controls of specific means installed on the tower, such as a pump for the return of a concrete transfer installation. As soon as the construction site no longer needs specific means at the top of the tower, and these remain in place or have been dismantled, the platform can be dismantled for use on another site. For this, simply remove the bolts 50 lock hooks and lift slightly each element A or B of the platform so that the hooks disengage from the peripheral belt 49 of the barrel 31. After this operation, the tower is found in the state it had before, so without any alteration following a specific development for the reception of the platform. It follows from the foregoing that the platform according to the invention has the advantage of being mounted on the end of any tower crane, without requiring any preparation, locks quickly to ensure perfect safety of personnel and allows add to the crane equipment increasing its functions and can be operated and controlled from above, regardless of crane operator. The amounts 21 of the hooking members which have just been described and represented as having the same height, can be replaced by amounts of unequal heights, to allow to fix at least one of the two elements on the crank shaft of the tower. Such an assembly is useful for example for washing a flexible pipe of a concrete transfer plant with large water. In this case, the platform element is fixed on the tower in such a way that when one end of the duct is hooked to the element, the duct hangs freely under it and its other end is non-contact with the ground to allow the free evacuation of the washing water with the concrete residues.

Claims (7)

CLAIMS1.) Device for fixing a platform against a support wall, said platform (1) being formed by a horizontal frame (2, 42) having at least one rear spar (4), adapted to come close to the support wall , and an anterior beam (3) connected to the previous by crosspieces (5), characterized in that it comprises: - at least two vertical tubular sleeves (10, 110), connected to the rear spar, opening at least upwards and extending upwards to a horizontal level greater than that of the platform (1), interchangeable and removable coupling members (11, 111), each comprising a vertical upright (21, 121), adapted to be engaged in one of the vertical sleeves (10, 110) of the platform, and a hook-shaped portion (22 or 122, 24 or 26) which, projecting towards the rear of this platform, is shaped in function of the part (23, 25) on which it must hang, - and pegs (12) each secured to cross a vertical sheath (10, 11) and the amount (21, 121) it contains. 2.) Device for fixing a platform against a support wall according to claim 1 characterized in that the fastening members (11, 111) are parts of series of organs differing in height from their uprights (21, 121) and the shape and length of the hooks. 3.) Device for fixing a platform against a support wall according to claims 1 and 2 taken together characterized in that the upper end of a fastening member (11) has the shape of a bracket equipped with an extreme return (24), directed downwards and whose length is determined by the height of the portion of the wall on which it will be hooked. 4.) Device for fixing a platform against a support wall according to claims 1 to 3 taken together characterized in that the extreme return (24) of each upright (21) is traversed by a horizontal hole for passing a bolt (50) wedging against the wall. 5.) Fixing device of a platform against a support wall according to claims 1 and 2 taken together characterized in that the upper end of a fastening member (111) has the shape of a potencontent the horizontal arm (122) comprises, near its end, a vertical finger (26) adapted to be engaged in a well (27) drilled in the slab (25) on which is applied the stem. 6.) Device for fixing a platform against a support wall according to claims 1 and 2 taken together 1 characterized in that the amounts (21, 121) of the fastening members of the same platform (1, A or B ) have different lengths each corresponding to the distance between the attachment point provided on the structure and the platform when the latter is substantially horizontal. 7.) Device for fixing a platform against a support wall according to claim 1 characterized in that, in its application to the attachment of a bridge surrounding the shaft (31) of a tower crane, said gateway is composed of two monolithic elements A and B framing the barrel (31) and each having, in view from above, a U-shaped whose soul (42a) comes against the barrel and whose ends of the wings (42b) are screwed opposite to those of the other element, while the fixing device comprises, on each of the two U-shaped elements A and B, at least two vertical sleeves (46) for receiving the fastening members (21), these sleeves being fixed against the inner edge of the core (42a) of the element. 9.) Device for fixing a platform against a support wall according to claim 1 characterized in that each vertical sleeve (110) carried by the platform (1) is formed by a metal section (17) of U-shaped cross section and by at least two transverse bolts (19) passing through the flanges (17b) of this profile and delimiting a vertical corridor for receiving the uprights (21, 121) of the fastening members (11, 111).