FR2621342A1 - SCREW WITH TRIANGULAR ELEMENTS - Google Patents

Abstract

The invention relates to a scaffolding formed by the assembly of triangulate elements, each of them having a vertical tube (1) and a locking device (13-18) for interlocking the vertical tube of one triangulate element with the vertical tube of another triangulate element. According to the invention, a) the male connector (2) of the vertical tube (1) of a triangulate element (A) is hollow and has an internal diameter (D1) not less than that of the vertical tube; and, b) the locking device is formed by a "bayonet" connection of two locking device elements, one (13) emerging in the external surface of the male connector (2), the other (18) in the internal surface of the female connector (3) of each vertical tube (1), such that a tube (23) of external diameter (D23) slightly less than the internal diameter (D1) of the vertical tubes (1) of the triangulate elements can freely slide inside two adjacent vertical tubes. One application is the simple and efficient construction of support scaffolding.

Description

Scaffolding with triangular elements FR-A-1,315,671 discloses an element

  scaffolding trianguLé allowing, by fitting the male connectors fitting in the female couplings, the realization of robust and stable scaffolds, especially in the industrialized form in which a pin locks the interlocking of each pair of two male-female connectors. It is often required to ensure that the upper tubes can be adapted to the vertical tubes of the highest triangular elements, so that, in particular in the support scaffolds, the total height of the scaffolding is adjusted according to the height of the scaffolding. the construction to be supported. The screw jacks located at the upper ends of the scaffolding having a maximum displacement much lower than that required to achieve the aforementioned adjustment, it is therefore necessary to use said complementary tubes, whose length must be significantly greater than the height of a vertical tube of triangulated element (for example 1.7 times this height) to obtain both satisfactory guidance of the complementary tube along the vertical tube of the triangulated element and a sufficient adjustment length. It is also necessary, and this is essential in the retaining scaffolds, that the complementary tubes have sufficient sections to support the loads to be supported. However, in the embodiment of the aforementioned French patent, the male endpieces have a narrowed lower section, and in any case, have a normal section smaller than that of the vertical tubes of the triangulated elements into which they are introduced, so that it becomes impossible, without making changes, to use the corresponding scaffolds. Moreover, interlocking locking pins, which are practically used and pass through the interlocking connectors, also constitute obstacles to the adaptation of

additional tuning tubes.

  Finally, it is found that the aforementioned triangular elements are very interesting for scaffolding because they are

26213 4?

  robust and reduce the number of parts appreciably.

  The object of the invention is to propose a modification of these triangulated elements for, keeping the principle of construction of a scaffolding means of such triangulated elements, substantially all of the same model for a given scaffold, allow adaptation of the aforementioned upper complementary tubes and thus

get the desired setting.

  The invention therefore relates to a scaffold constituted by the assembly of a plurality of triangulated elements, each of them comprising a vertical hollow tube having two ends, a first of these two ends being provided with a male connector. interlocking and the second of these ends being provided with a female interlocking connector; a substantially horizontal tube having two ends, a first of these two ends of the substantially horizontal tube being fixed on the vertical tube in the vicinity of one of said two ends of this vertical tube and the second of the two ends of the substantially horizontal tube being provided with a female immobilization connector, and a vertical and substantially horizontal oblique connection tube of said tubes, fixed on said tubes, while the male interlocking connection of the vertical tube of a first triangulated element can be introduced concomitantly, firstly in the female connector of immobilization of the substantially horizontal tube of a second triangulated element, then in the female fitting of interlocking of the vertical tube of a third triangulated element, to, on the one hand, realize the assembly in alignment of the vertical tubes of said first and third triangulated elements, on the other hand to achieve the immobilization of the second end of the substantially horizontal tube of the second triangulated element, and, after said introduction of the male connector of the vertical tube of the first triangulated element in the female connections of immobilization of the substantially horizontal tube of the second triangulated element and interlocking of the vertical tube of the third triangulated element, a latch maintains said insertion of the male interlocking fitting of the vertical tube of the first triangulated element into the female interlocking fitting of the vertical tube of the third triangulated element. According to the invention, a) the male interlocking fitting of the vertical tube of a triangulated element is hollow and has an internal diameter at least equal to that of said vertical tube, and b) the lock is constituted by a "bayonet" assembly of two latch elements opening one into the outer surface of the interlocking male connector, the other into the inner surface of the interlocking female connector of each vertical tube, so that a tube of slightly smaller outer diameter the inner diameter of the vertical tubes of the triangulated elements can slide freely inside two adjacent vertical tubes

  assembled triangulated elements without being impeded by said lock.

  The advantageous following provisions are, moreover, preferably adopted: the male fitting of the vertical tube of a triangulated element is constituted by the first end itself of said vertical tube; - The female fitting fitting of the vertical tube of a triangulated element is constituted by a sleeve which has an inner diameter greater than the outer diameter of the second end of said vertical tube and which is fixed on the second end of the vertical tube; in this latter arrangement, it is furthermore advantageous if the element of the "bayonet" latch integral with the male interlocking connector is constituted by the male element of this "bayonet" latch and co-operates with the female element of said latch , which is constituted by a groove formed in the thickness of said sleeve, the portion of the sleeve delimited by two transverse sections between which said groove is located being preferably reinforced by an outer ring; the relative position of two superimposed triangular elements, in which the male interlocking connection of the vertical tube of one of said triangulated elements is capable of penetrating into the female interlocking fitting of the vertical tube of the other of these

262 1,342

  two triangulated elements corresponds to a first angular shift, in a first direction, of the planes of the two triangular elements with respect to the common axis of their vertical tubes, whereas, on the one hand, the relative rotation of the two said triangulated elements canceling this first angular offset makes it possible to obtain the locking of the insertion of the male interlocking fitting of the vertical tube of one of the two so-called triangulated elements in the female interlocking fitting of the vertical tube of the other of the two Triangulated elements, on the other hand, a complementary rotation beyond said cancellation rotation of the first angular offset, in the opposite direction to this first angular offset, is permitted by said "balonnette" assembly, making a second angular offset maximum, said first and second angular offsets having amplitudes limited to values allowing a scaffolder to find an app ui on the upper triangular element in the extreme relative positions corresponding to the first and second angular offsets; - The socket fitting of the vertical tube of a triangulated element is located at the upper end of said vertical tube, and preferably the first end of the substantially horizontal tube of a triangulated element is disposed in the vicinity of the upper end of the vertical tube of said triangular member, the upper slices of the female fitting socket of the vertical and lower tube of the female connector for immobilizing the substantially horizontal tube being contained in the same plane perpendicular to the axis of the vertical tube; the axial depth of the female coupling of the vertical tube of a triangulated element, between the external transverse section of said coupling and the transverse section of the second end of said vertical tube, is at most equal to the length of the male interlocking fitting, so that, in the assembly configuration of two superimposed triangular elements, after complete introduction of the male fitting connector of the vertical tube of one of these two triangulated elements in the socket fitting of the vertical tube of the other triangulated element, the adjacent extreme edges of the vertical tubes of the two elements

  triangulars rest on one another.

  The main advantage of the invention is functional: while maintaining the principle of use of triangulated elements, appreciated for their robustness and the simplicity of the assemblies, it became possible, with the new triangulated elements, to perform all

desired size settings.

  The invention will be better understood, and secondary features and advantages will become apparent in the course of

  description of achievements given below as an example.

  It is understood that the description and the drawings are not

  given as indicative and not limiting.

  Reference will be made to the accompanying drawings, in which: - Figure 1 is an elevational view of a triangulated element according to the invention; FIGS. 2A, 3A and 4A are top views of two triangulated elements, in three separate assembly configurations, respectively; FIGS. 2B, 3B and 4B are simplified views showing the latch positions of the two triangulated elements of FIGS. 2A, 3A and 4A, respectively; - Figure 5 is a perspective view of the lower part of a scaffold according to the invention, the various elements being ready to be assembled, but not yet assembled; FIG. 6 is a perspective view of the same assembly as that of FIG. 5, but in the assembled configuration of the various elements; - Figure 7 is a perspective view of the upper part of a scaffold according to the invention, the various elements being presented for assembly, but not yet assembled; FIG. 8 is a perspective view of part of the assembly of FIG. 7, the various elements being in their

assembly configuration; -

  FIG. 9 is a partial view in axial section of three triangular elements according to the invention in their assembly configuration; Figure 10 is a perspective view of an element used in the construction of the scaffold of Figures 7 and 8; and, OS - Figure 11 is a perspective view showing the details for assembling a variant of triangulated elements,

  also in accordance with the invention.

  The invention intends to retain the use of triangulated elements for the construction of scaffolds. According to this invention, such an element, shown in FIGS. 1 and 9,

includes: -

  - A vertical hollow tube 1, whose inner section has a substantially constant diameter D1, and which has a first end 2, constituting a male interlocking connector, and a second end 3, constituting a socket female connector; - A substantially horizontal tube 4, a first end 5 is fixed on the outer portion of the second end 3 (female connector) of the vertical tube, and the second end 6 is constituted by an angled flat iron, having a horizontal flange 7 provided with an orifice 8 forming an immobilization connector; - An oblique tube 9, connecting said vertical tubes 1 and substantially horizontal 4, fixed, on the one hand, near the first end 2 (male interlocking connection) of the vertical tube, on the other hand, on a wing vertical 10 that includes the second

  end 6 of the substantially horizontal tube 4.

  The male fitting 2 of a vertical tube 1 is constituted by the portion of the lower end of said vertical tube 1, defined by the lower extreme cross section 11 of the tube. This section is surrounded, from a distance D12 of said cross-section 11, by a first sleeve 12 fitted to the outer face 1a of this part of the tube 1, in the lower part of which the male element 13 has been cut. an interlocking latch type "balonnette". This first sleeve 12 has its upper part (above the male element 13 which remains clear) surrounded by a second sleeve 14, delimited by its section

262 1-342

  lower extreme transverse 15.

  The socket female fitting 3 of a vertical tube 1 is constituted by the section of the upper end of said vertical tube 1, delimited by the upper extreme cross section 16 of said vertical tube. This section is surrounded by a first sleeve 17, which protrudes from said transverse section 16, which is notched with a notch 18 constituting the female element of said "bayonet" type interlocking latch and which is finally delimited by a transverse section. upper 19. Finally, the upper portion of this first sleeve 17, is surrounded, from a cross section 24 located below the notch 18, and in the region of this notch 18, by a second sleeve 20, for to mask said notch and to reinforce the first sleeve 17 in the zone of

  the notch, and delimited by an upper cross section 21.

  FIG. 9 represents the assembly of the vertical tube 1 of a first upper triangular element A, with the immobilization fitting 8 (consisting of an orifice) of a second intermediate triangulated element B and with the vertical tube 1 of a third triangulated lower element C. These triangulated elements

  shown just before and after assembly in Figures 5 and 6.

  The following points can be noted, with reference to FIG. 9: the lower transverse section 11 of the vertical tube 1 of the triangulated element A rests, and is in support of force transmission, on the upper cross section 16 of the tube vertical 1 of the triangular element C; - The lower cross section of the sleeve 14 is disposed above the upper face 7a of the horizontal flange 7, possibly with a small clearance J, prohibiting this horizontal flange 7 and the triangulated element B of which it is part, to lift upwards, after placing the triangulated element A and locking the latch elements 13 and 18; the sleeve 12 of the triangulated element A, as well as the male element 13 of the "ball-and-socket" lock, have passed through the orifice 8 of said horizontal flange 7, this time preventing any displacement of said flange with respect to the common axis 22 of the two vertical tubes 1, when, Moreover, the lower part of the vertical tube 1 of the intermediate triangulated element B has been immobilized (see Figure 6); - alignment. vertical tubes 1 of the two triangulated elements upper A and lower C (common axis 22) and the absence of prominence inside said tubes (in particular absence of locking pin) makes possible the free passage of a tube 23 of diameter outside D23 slightly less than the inside diameter D1 of the vertical tubes 1; - The upper cross sections 19 and 21 of the first and second sleeves located at the upper part of a vertical tube 1 are located substantially in the same plane P (perpendicular to the axis 22) of the vertical tubes 1); as shown in FIG. 1, the plane P of the upper transverse sections 19 and 21 of the upper end of the vertical tube 1 of a triangulated element also substantially contains the lower face 7b of the second end 6 of the substantially horizontal tube 4 of the same triangulated element; the lower face 7b of the wing 7 of the intermediate triangulated element B rests on the upper transverse section 21 of the sleeve 20 (FIG. 9); - The inner diameters of the sleeves 17 and 20 are slightly greater than the outer diameters of the sleeves 12 and 14, respectively, to allow the reception of the latter within the first cities; the axial depth P17 of the sleeve 17 is slightly smaller than the length L1 of the section of the lower end of a vertical tube 1, so as to ensure the contact of extreme sections

  11 and 16 of the assembly of Figure 9.

  FIGS. 2A, 2B, 3A, 3B and 4A, 4B show three configurations that can be taken by the substantially horizontal tubes 4 of the upper and lower triangular elements C, the male interlocking connection of the vertical tube of one being introduced into the female pipe fitting of the vertical pipe of the other, the axes

  22 of the two vertical tubes being merged.

  Figures 2A, 2B show first the configuration

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  for introducing the male element 13 of the latch into the female groove 18 of said latch, the substantially horizontal tube 4 of the upper triangular element A being offset by a rotation R1 in a first direction S1 with respect to the substantially horizontal tube of the lower triangulated element C; In this configuration, there is obviously no locking and the upper triangular element A can be mounted on the lower triangular element C as well as being separated from this lower triangular element C. FIGS. 3A, 3B show the configuration of the final assembly, as shown in Figure 6. The angular offset R1 has been removed, compared to the previous configuration of Figure 2A, by a rotation R1 of the upper triangular element A in the opposite direction to the direction S1. The two substantially horizontal arms are superimposed (seen from above), and the male locking element 13 of the upper triangulated element A cooperates with the lower part of the notch 18 of the lower triangular element C to prevent dislocation of the vertical tube of one with respect to

  vertical tube of the other triangulated element.

  FIGS. 4A, 4B show a configuration in which, beyond that of FIGS. 3A, 3B, the upper triangular element A has undergone a new rotation R2, in the direction S2 opposite to S1. This rotation allows the mounting of a triangulated element according to the upper triangular element A considered, next element located at the same height as the element A (at the upper end of the tube

  vertical right most of Figures 5 and 6). -

  It is important to note that the rotations in a direction S1 or in the other direction S2 are limited to the extreme rotations R1 and R2, which have values such that an assembler can still be supported on the upper triangular element A, even in

  extreme configurations of Figures 2A and 4A, without falling.

  Figures 5 and 6 show the quite conventional presence of foot screw jacks 24 for supporting the columns of vertical tubes 1 superimposed. Note that, in these figures, the scaffolding shown is based on a square or a diamond, but that the provisions of the invention apply to all other types

262 1 3 42

  scaffolding with polygonal base (five, six, or more sides, or

even on three sides).

  Figures 7 and 8 show the upper part of a

  scaffolding according to the invention.

  The presence of last isolated vertical tubes 23, not included in indeformable triangles must be noted, associated of course with other horizontal 25 and oblique tubes 26 (of adjustable lengths) to complete the various triangulations. These vertical tubes 23 are able to slide inside the last two vertical tubes 1 of the columns of such superimposed tubes, in the manner shown in FIG. 9. These tubes 23 are provided with several transverse holes 27, regularly spaced, which allow the height adjustment by means of pins 28 inserted concomitantly into the holes of a particular mounting element 29, described with reference to Figure 10, and a pair of said holes 27 of each tube 23. In conventional manner , screw jacks 30 are adapted to the upper part of each vertical tube 23 to adjust the total support height of the scaffold accurately. In a similar manner to FIGS. 5 and 6, FIGS. 7 and 8 show the same part of scaffolding before assembly, the various elements being presented with a view to

assembly, and after assembly.

  The mounting member 29 is shown in FIG. It consists of two half-shells 31, of generally cylindrical shape, articulated by an axis 32, around adjacent edges 33, and which, once closed, are able to perform the same function as that of the male interlocking connector 2 This mounting member 29 can be attached to any desired height along a tube 23, since each of its shells is provided with a hole 34, which in cooperation with a pair of holes 27 of the tube 23 and the pin 28, effectively allows said fixing of the element of

mounting 29 on the tube 23.

  A male lock member 13A, similar to the element 13, equips at least one of the shells 31 and allows the locking of the tube 23 on the upper end of the last vertical tube 1 monobloc triangular element. The advantage of this particular element of assembly 29 is to be dismountable independently of the tube 23 on which it is mounted, by simply removing the pin 28, unlocking the latch 13A, sliding along the tube 23 and opening the S05cosquilles 31, and after this disassembly of the element 29, the sliding of the tube 23 inside the vertical tube or tubes 1

triangulated elements.

  Finally, FIG. 11 shows an assembly variant of two vertical tubes 1 of triangulated elements. It is noted that the upper end of the lower tube widens into a collar 35, in the inner face of which two grooves 36 are formed. The end of the substantially horizontal tube 4 is in the form of a U, whose upper branch 37 is provided with the orifice 8 forming an immobilization connector, and fits the upper end face of the collar 35, while the lower branch 38 of the U has an opening 39 allowing it to pass a vertical tube 1, but to lock under the lower face 40 of collar 35. Finally, two lugs 41 (only one visible in the figure) integral with the end lower the upper vertical tube 1 extend transversely outwardly from the outer face of said tube 1, and can cooperate with the grooves 36 for mounting, and locking in the assembled position of the three parts:

  two vertical tubes 1 and the substantially horizontal tube 4.

  As has just been seen, the arrangements according to the invention allow the free sliding, inside vertical tubes 1 of triangulated elements, of complementary vertical tubes 23 of external diameters very little less than their internal diameter, therefore without excessive weakening of the carrier structure, and of length as large as necessary to obtain an adjustment in

  desired height and good guidance in the tubes 1.

  Moreover, the definition of the bolts used makes it possible to obtain extreme configurations which are security configurations, since the pivoting deflections of the upper triangulated element are limited thereto, this upper triangulated element providing

  in addition, support for an erector erecting a scaffolding.

  All this is finally achieved by keeping the principle

  to use triangular elements, appreciated for their robustness.

  The invention is not limited to the embodiments described, but covers all the variants that could be

  brought without leaving their frame or their minds.

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Claims (9)

  Scaffolding constituted by the assembly of a plurality of triangulated elements, each of them comprising: a vertical hollow tube (1) having two ends, a first (2) of these two ends being provided with a connection male interlocking and the second (3) of these ends being provided with a socket female connector, - a substantially horizontal tube (4) having two ends, a first (5) of these two ends of the substantially horizontal tube being fixed on the vertical tube (1) in the vicinity of one of said two ends of this vertical tube and the second (6) of the two ends of the substantially horizontal tube being provided with a female connector (8) for immobilization, and - an oblique tube (9) connecting said vertical tubes (1) and substantially horizontal (4), fixed on said tubes, while the male interlocking fitting (2) of the vertical tube (1) of a first triangulated element (A) is likely to be introduced concomitantly, first in the female connector (8) for immobilizing the substantially horizontal tube (4) of a second triangulated element (B), then in the female interlocking fitting (3) of the vertical tube (1) of a third triangulated element (C), for, on the one hand, aligning the vertical tubes (1) of said first (A) and third (C) triangular elements (22), and secondly immobilizing the second end (7) of the substantially horizontal tube (4) of the second triangulated element, and, after said introduction of the male connector of the vertical tube of the first triangulated element in the female connections of immobilization of the substantially horizontal tube of the second triangulated element and of interlocking of the vertical tube of the third triangulated element, a latch (13-18) maintains said insertion of the male interlocking fitting of the vertical tube of the first triangulated element into the female fitting socket of the vertical tube of the t third triangulated element, characterized in that a) the male interlocking fitting (2) of the vertical tube (1) of a triangulated element is hollow (1) and has an internal diameter (D1) at least equal to that of said tube vertical (1); and, b) the latch is constituted by a "bayonet" mounting of two latch elements opening one (13) in the outer surface (1a) of the male interlocking connector (2), the other in the surface internal portion (17-20) of the socket female connector (3) of each vertical tube (1), so that a tube (23) of external diameter (D23) slightly smaller than the internal diameter (D1) of the vertical tubes ( 1) triangulated elements can slide freely inside two adjacent vertical tubes assembled triangulated elements without being disturbed by said latch (13-18).   2. Scaffolding according to claim 1, characterized in that the male interlocking fitting of the vertical tube of a triangulated element is constituted by the first end itself of said tube. vertical (1).   3. Scaffolding according to any one of claims 1 and 2,   characterized in that the socket fitting of the vertical tube of a triangulated element is constituted by a sleeve (17-20) which has an inside diameter greater than the outside diameter (D1) of the second end of said vertical tube (1). and which is fixed   (20-17) on this second end of the vertical tube (1).   4. Scaffolding according to claim 3, characterized in that the element of the "bayonet" lock integral with the male interlocking connector is constituted by the male element (13) of the "bayonet" lock and cooperates with the female element (18) of said latch, which is constituted by a groove formed in the thickness of said sleeve (17-20).   5. Scaffolding according to claim 4, characterized in that the portion of the sleeve (17) delimited by two transverse sections between which is located said groove is reinforced by a outer ring (20).   Scaffolding according to one of Claims 1 to 5,   characterized in that the relative position (FIG. 2A) of two superimposed triangular elements (A, C) in which the male coupling 2 6 2 1 3 42   The interlocking of the vertical tube of one of said triangular elements is capable of penetrating into the female fitting of the vertical tube of the other of these two triangulated elements corresponds to a first angular offset (R1), in a first sense. (S1), planes of the two elements triangulated with respect to the common axis (22) of their vertical tubes (1), while, on the one hand, the relative rotation (- R1) of the two said triangulated elements annulling this first angular offset (FIG. 3A) makes it possible to obtain the locking for holding the insertion of the interlocking fitting of the vertical tube of one of the two so-called triangulated elements into the female interlocking fitting of the vertical tube of the other of the two triangulated elements, on the other hand, a complementary rotation (R2) beyond said cancellation rotation of the first angular offset, in the opposite direction (S2) to this first angular offset, is permitted by said mounting to "bayonet" (Figure 4A), performing a second maximum angular offset, said first and second angular offsets having amplitudes limited to values allowing a scaffolder to find support on the upper triangular element in the extreme relative positions corresponding to the first and second angular offsets.   Scaffolding according to one of Claims 1 to 6,   characterized in that the female interlocking fitting (3) of the vertical tube of a triangulated element is located at the upper end said vertical tube (1).   8. Scaffolding according to claim 7, characterized in that the first end (5) of the substantially horizontal tube (4) of a triangulated element is disposed in the vicinity of the upper end (3) of the vertical tube (1) of said element triangulated, the upper slices (21) of the female fitting socket of the vertical and lower tube (7b) of the immobilizing female connector (8) of the substantially horizontal tube (14) being contained in a   same plane (P) perpendicular to the axis (22) of the vertical tube (1).   Scaffold according to one of Claims 1 to 8,   characterized in that the axial depth (P17) of the female connector (3) of the vertical tube (1) of a triangulated element, between the outer transverse section (21) of said coupling and the transverse section (16) of said second end of said vertical tube (1), is at most equal to the length (L1) of the male interlocking fitting, so that, in the assembly configuration of two superposed triangular elements, after complete introduction of the male interlocking fitting of the tube vertical of one of these two elements triangulated in the socket female fitting of the vertical tube of the other triangulated element, the adjacent extreme edges (11 and 16) of the vertical tubes of the two triangulated elements are supported one on the other.