CA2129529A1 - Collapsible barrier - Google Patents

Abstract

A collapsible barrier comprising at least one rail (2) and a secondary rail (10'). The barrier is remarkable in that the rail (2) is supported by two or more spaced apart diamond-shaped mechanical assemblies (3') each consisting of four arms hinged together at their ends, in that said rail (2) is attached to one hinge of each assembly, i.e. a rail hinge (5), while the opposite hinge, i.e. a ground hinge (4), is fixed to the ground or to a member (1) placed on or fixed to the ground, said secondary rail consisting of a rod (10') parallel to the rail passing through or passed through by the other two hinges (6, 7) of each assembly, and in that at least one locking system is provided for locking the barrier in at least one operative position.

Description

WO 94/13885 ~) PCT / FR93 / 01221 Extendable barrier.

The invention relates to an extendable barrier, in particular intended born to constitute a railing or a dam, or even a barrier 05 signaling.
The present invention is indeed more particularly, but not exclusively, intended to protect pits, trenches, or very, against accidental falls of passers-by or workers, and in general, to protect temporarily, the excavated - 10 permanent residences, such as garage pits.
However, not only does the invention also make it possible to equip a platform, a terrace, a loading dock, or whatever, but it also makes it possible to ensure a temporary dam for parking, street pedestrian, work areas, etc., or constitute a simple barrier support for signaling.
A garage pit railing, for example, has a smooth, a smooth underside and a plinth.
Such a railing must be able to be installed and uninstalled easily since it must not interfere with the use of the pit.
20This is why we imagined folding type railings, like for example those described in French patents 2621346 and 2661932 in the name of the same inventor.
One of the drawbacks of the known devices is the need to provide a housing for the folded railing which constitutes a right of way over the pit and / or requires earthworks.
The barrier according to the invention makes it possible inter alia to avoid this disadvantage.
The invention indeed provides an extendable barrier comprising both at least a smooth and a sub-smooth ~ but which is remarkable in that the stringer is supported by at least two mechanical diamonds - separated from each other and each formed of four articulated arms between them by their ends, in that the heald is fixed on one joints of each rhombus, called heald joint, the diametrically opposite joint, called the ground joint, being intended to be fixed to the ground or to an element to be fixed or placed on the ground, while the sub-rail is formed by at least one rod parallel to the rail which crosses the two other joints of WO 94l13885 PCT / FR93 / 01221 ... . ... . .
..3 each rhombus, called sub-rail joints, or is crossed by them, and that at least one blocking system is provided for block the barrier in at least one position of use.
We understand that such a barrier can be extended upwards, 05 the heald and the sub-heald can thus be raised or lowered vertically (for horizontal installation).
According to one embodiment, the blocking system comprises on at least one of the sub-beam joints for each diamond ge, a threaded ring, intended to come into engagement with a part - 10 threaded from the sub-rail rod.
Advantageously in this case, a rotational drive means tion is furthermore intended to be in engagement with the sub-arm rod so that the rotation thereof causes the spacing, or the approximation of the sub-arm joints and vice versa approximation or spacing of the heald and ground joints. Of preferably also, the sub-smooth rod present for cha ~ ue rhombus a threaded part for only one of the sub-articulations smooth of said rhombus and a smooth part for the other articulation of sub-smooth, the latter comprising a ring in which said rod sub-smooth can slide freely.
According to another embodiment, possibly with actuates-manual locking system for each diamond and on at least one of the sub-arm joints, a pawl intended for come into engagement with at least one notch formed on the sub-arm rod, which is made rotatable to be able to disengage from the pawl by simple rotation.
For example in this case, at least one counterweight is provided to keep the sub-arm rod in a position in which the notches with which it is provided, are turned towards the pawls.
Such a barrier can also be constituted by several elementary barriers connected together by means ~ ui subject the sub-beams to rotation at will, while a means for locking in rotation can be provided on at least one said elementary barriers.
According to a particularly advantageous embodiment, the blocking system includes for some at least diamonds a double-acting cylinder whose rod acts on one of the arms of said diamond WO 94113885 r ~ 3 PCT / FR93101 ~ 21 ge, while the sub-arm joints are slidably mounted in the sub-rail so that the actuation of the cylinder causes spacing, or bringing together, of the sub-joints smooth and vice versa, the approximation or spacing of the articulations-05 smooth and soil. Preferably in this case, the cylinder of the actuator is positioned substantially at ground level, parallel to the sub-smooth and smooth, while the rod of said cylinder is articulated by at least one link to one of the arms adjacent to the articulation of ground of said diamond.
10The end of the cylinder rod can, for example, be articulated linked with the link by means of at least one roller is lying.
In particular to ensure a very parallel lifting of the smooth, one of the two sub-smooth joints of at least some diamonds are linked together by a connecting bar. Before-also, at least some of the sub-arm joints are stressed by a compression spring do ~ nt in particular as a shock absorber on the way down.
To allow various applications, an embodiment tion is remarkable in that the sub-arm rod has more several sections connected in ~ re them by articulated connections allowing thus to constitute a broken line barrier.
The articulation ~ of the ground is, for example, fixed to a base forming at least one plinth, said base being intended to be fixed or ~ rest on the ground.
The base can have the shape of an inverted T, but also the shape of u ~ U.
The base can also be intended to be arranged in a excavation provided for this purpose.
30In this case and according to an embodiment ~ ion, the base is, by example, framed on either side of its length by elements forming a ramp and it is articulated to at least one of said elements which rests on the ground so that the other element lifts up when the barrier is forced towards the articulated element.
35According to the applications, it is also possible to predict that the ends of the arm are slidably mounted in two side aunts, means which may furthermore be provided in at least WO 94/1388 ~ PCT / FR93101221 . ~,. ,, ~. .

one of the uprights to activate the barrier by acting on the arm.
The invention will be well understood and other features will appear on reading the description which follows and which refers to the accompanying drawings in which:

- Figures 1, 2 and 3 show a barrier according to the invention-tion in three positions, respectively low, intermediate-re and high, - 10 - Figures 4, 5 and 6 correspond to Figures 1 to 3, according to another embodiment, - Figure 7 partially shows another embodiment provided with another blocking system, - Figure 8 shows a particular connection between two barrier elements, - Figure 9 shows an application made possible by to a connection of the type of that of FIG. 8, - Figures 10 to 15 show possible applications of embodiments represented in the preceding figures your.

A barrier according to the invention, as shown in the FIGS. 1 to 6, includes a base 1 intended to be fixed or placed on the ground, or on any element integral with it, and a rail 2 under the shape of a bar (identical parts of an embodiment to the other having the same references).
The rail 2 is movably attached to the base 1, by means of articulated arms forming diamonds such as diamonds 3 and 3 '.
In the embodiment of Figures 1 to 3, there are two diamonds 3 and in the embodiment of FIGS. 4 to 6, we use get three 3 'diamonds (there could of course be more).
As the figures show, each diamond 3, 3 ′ is made up of killed by four arms hinged together.

",, ~,) ., ~, 1 ... ..

The base 1 and the arm 2 in fact comprise respective parts tively 4 and S on which its ~ articulated ends corres-two arms of each diamond and that is why the pieces 4 and 5 will be referred to hereinafter as ground joints respectively 05 and smooth.
In fact, we understand perfectly that the arms of the rhombus could be directly linked together without the intermediary parts 4 and 5.
The other two joints ~, 6l and 7, 7 ', are said to be sub-smooth for the reasons which will be understood below. In the embodiment of Figures 1 to 3, the sub-arm articulations 6, 7 comprise for one ~, a threaded ring 8 and for the other 7, a smooth ring 9.
The rings 8 and 9 of the joints 6 and 7 are crossed by the sub-rail formed by at least one bar or rod 10.
The rod 10 has here threaded parts 10a and parts smooth lOb ties.
The threaded parts 10a are intended to cooperate with the threaded rings 8 and the smooth parts lOb are intended to pass through-freely tighten the rings 9.
In this way, it is understood that a rotation of the sub-smooth rod 10 makes it possible, by screwing and unscrewing, to bring together or separate joints 6 and, 7 and at the same time of course respectively move aside or bring joints 4 and 5 together and therefore lift worm or lower the stringer 2 and the sub-stringer rod 10.
To ensure this rotation, a motor 11 has been provided here.
electric, hydraulic, pneumatic, or other.
The dimensions are such that in the folded position (Figure 1), all the elements are housed in the base 1.
It is understood that the sub-arm rod here has several functions.
It first constitutes a necessary, even obligatory, sub-rail roof for protection, but also a control and barrier blocking.
We can consider several possible elevation heights depending on the uses, Figure 3 showing a maximum elevation in depending on the length provided for the threaded parts of the rod 10.
It is clear, however, that the entire rod 10 could be threaded.
In the embodiment of FIGS. 4 to 6, the articulations 05 sub-beams 6 ', 7' are also crossed by a rod 10 ' sub-arm, but here each articulation 6 ', 7' has an axis which passes through a corresponding light 10 ′ arranged in said rod of sub-arm (see also figure 12 for a perspective view).
There is therefore no threaded part here, nor a motor 11.
However, we can see that the two diamonds, 3 'at the end are fitted with cylinders 26, for example hydraulic, the cylinders of which dres are arranged in the base 1 opposite one of llautre, parallel-Lement said base and therefore parallel to the rail 2 and the rod 10 ' of sub-stringer.
The rods 27 of the cylinders 26 are articulated by means of area of a roller 28 to a double link 29, itself articulated to one of the arms of the diamond next to the articulation 4 of the ground, the references above mentioned references 27 to 29 being only indicated on one of the cylinders 26 which equips one of the diamonds 3 'of FIG. 6 to avoid unnecessary repetitions.
In addition, in this particular embodiment and entirely advantageous fact of FIGS. 4 to 6, one of the articulations of the smooth of each losangg in this case the 6 'joints, are connected between them by a connecting bar 30.
It is understood that the actuation of the jacks 26 makes it possible to act on one of the arms of the end diamonds and thereby cause the lift vement and lowering of the heald 2 and the rod 10 'of the heald, the system can thus take, among other things, the positions shown in Figures 4 to 6, Figure 4 showing the folded position in which, as before, the assembly is housed in the base 1.
- The link bar 30 appeared very useful to ensure a well parallel lifting of the heald and the sub-heald. In addition, the bar 30 stiffens the rhombus 3 'of the middle without cylinder, because it is clear that it is not necessary to provide a cylinder by losan-ge and the arrangement shown with three diamonds and two cylinders is particularly interesting.
The inventor also provided compression springs (not WO 94/1388 ~ PCT / FR93J01221 visible in the drawings) arranged in the lights lO'a ~ for assu-r damping on the descent and / or facilitate lifting.
In addition, other position locking means can be provided, as shown, for example, in the embodiment of the 05 figure 7 in which indeed, the sub-arm joints, ref-listed here 6 "and 7", include pawls 12, 13 intended to cooperate rer with notches 14, 15 formed in the 10 "shank rod.
In addition, in this embodiment, a counterweight 16 requires the sub-arm 10 "to be presented in such a way that the notches 14, 15 which it is provided with are turned towards said pawls 12, 13.
It is perfectly understood that in this ~ embodiment, it just raise the arm 2 to cause the pawls to lock then you have to turn the sub-arm 10 "to release these and fold back the barrier. We also understand that the lifting of the arm 2 can be done by any means and even of course manually.
One can of course imagine connecting several barriers of the type of Figure 7, means being provided to submit ~ ttir at will in rotation, the sub-beams 10 ". These means can, for example, be fitted in the counterweights 16 which have for this purpose each a coupling groove 16 ', as shown in the figure 7. In addition, in this case, a locking means can also be provided.
ge of the rotation of at least one of the barriers, this means comprising, for example, a lock provided in at least one of the 6 "joints, 71 ~, actuated by a key. This locking can of course be provided even if the barrier is in one element.
FIG. 8 shows a barrier of the type of that of FIGS. 1 to 3 (we can of course use the same or similar means for the embodiment of Figures 4 to 6), but the sub-stringer 10 is in several sections linked together by fittings, like fitting 17, here of Cardan type.
Such an arrangement allows in particular to make elbows as shown in the barrier of FIG. 9 provided with at least one connection 17.
For a barrier of this type, the rail 2 and / or the base 1 can also be in several parts (or in one and present elbows).
Figure 9 already shows an application. Figures 10 to 13 ) . ~ ~. ~, ... ..

show other possible applications.
With two barriers as described, one can, for example, protect a garage pit 18, as shown in Figure lO
t is by way of example that the embodiment is used here 05 of Figures 1 to 3).
Figures l to 10 show a base l formed of a T-shaped iron overturned (Figure lO) or L (Figure 9 ~ and therefore constituting a plin ~
tea.
Figures ll to 15, on the other hand, show a U-shaped base.
The base l in FIGS. 11 and 12 is intended to be available dried in an excavation, or as here between two elements l9, 20 for-mant ramps, the barrier of Figure ll being of the type described in About Figures 1 to 3, and that of Figure 12 of the type of that described with reference to FIGS. 4 to 6.
lS We then understand that the whole barrier can fold in the base l, the assembly forming, for example, a retarder (the smooth

2 being wide enough to cover the base l).
In the application of FIG. 13, a single ramp element l9 is planned, the barrier being, for example, intended for a quay landing.
Figures 14 and 15 show a barrier as above.
described but which is further provided here with two uprights side 21 and 22 in which the ends of the rail 2 are, for example, mounted in coulissan ~ e. It can be a barrier forming a portal, for example. A completely embodiment interesting can of course be directly obtained with the mode of realization of FIGS. 4 to 6, the sliding being provided by the lights there. To do this, simply add additional tants in figure l2.
To activate the barrier of FIGS. 14 and 15, provision has been made - at least one cylinder 23 arranged in at least one of the uprights, said cylinder being intended to act on the rail 2. However, with a device such as in figl-re 12, the actuating cylinders are arranged as already said in the base l.
As in the case of Figures ll and 12, the base is mounted between two elements 19, 20 forming ramps.
In addition, as shown more particularly in FIG. 15, ? (,) the base and the uprights 21 and 22 are articulated at 24, 25 with the-said elements respectively l9 and 20.
In this way, if we force the barrier with a vehicle in a one way or the other, the barrier will pivot towards the element opposite the 05 direction of arrival of the vehicle while the other element will be driven in rotation and will lock the vehicle from below.
It is obvious that in this case, one can not foresee the articula-tion only on one side.
In addition, the element intended to rise can be equipped with a ~ lO stand which unfolds at the time of pivoting to prevent the return to the initial position without special intervention.

..

Claims (19)

1) Extendable barrier comprising at least one rail (2) and a sub-rail (10,10',10"), characterized in that the rail (2) is supported by at least two mechanical diamonds (3.3') separated from one the other and each formed of four arms articulated between them by their ends, in that the smooth (2) is fixed on one of the joints of each diamond, known as the smooth articulation (5), the articulation diametrically opposed tion, called ground joint (4), being intended to be fixed to the ground or to an element (1) to be fixed or placed on the floor, while the sub-saddle consists of at least one rod (10,10',10") parallel to the stringer that crosses the other two joints lations (6,7; 6',7';6",7") of each rhombus, called joints of under-smooth, or is crossed by them, and that at least one system locking device is provided to lock the barrier in at least one position tion of use. 2) Barrier according to claim 1, characterized in that the locking system comprises on at least one of the joints of sub-smooth (6) for each diamond, a threaded ring (8), intended to come into engagement with a threaded part (10a) of the sub-saddle rod (10). 3) Barrier according to claim 2, characterized in that a rotation drive means (11) is further provided to be in taken with the under-heel rod (10) in such a way that the rotation of this leads to the separation, or the bringing together, of the joints sub-rail (6.6') and conversely the approximation or the spacing of the smooth (5) and floor (4) joints. 4) Barrier according to one of claims 2 and 3, charac-sed in that the under-heel rod (10) has for each diamond (3) a threaded part (10a) for only one (6) of the joints sub-smooth of said diamond and a smooth part (10b) for the other sub-rail articulation (7), the latter comprising a ring (9) in which said sub-saddle rod can slide freely. 5) Barrier according to claim 1, characterized in that the blocking system comprises for each diamond and on at least one of the sub-rail joints (6",7"), a pawl (12,13) intended to come into engagement with at least one notch (14,15) provided on the rod (10") of sub-height, which is made rotatable to be able to release the pawl by simple rotation. 6) Barrier according to claim 5, characterized in that at least one counterweight (16) is provided to hold the rod (10") from sub-smooth in a position in which the notches (14,15) of which it is fitted, face the pawls. 7) Barrier according to one of claims 1 to 6, characterized in that it consists of several elementary barriers interconnected by means (16') which subject to will rotate the sub-heddles (10"), while a means of rotation lock can be provided on at least one of said elementary barriers. 8) Barrier according to claim 1, characterized in that the blocking system comprises for some at least diamonds (3') a double-acting cylinder (26) whose rod (27) acts on one of the arm of said diamond (3'), while the sub-saddle joints (6',7') are slidably mounted in the sub-rail (10') in such a way so that the actuation of the cylinder (26) causes the separation, or the approximation, of the under-saddle joints (6',7') and reciprocal-ment, the bringing together or the spreading of the heald joints (5) and ground (4). 9) Barrier according to claim 8, characterized in that the jack cylinder is positioned substantially at ground level, parallel to the sub-rail (10') and the rail (2), while the rod (27) of said cylinder is articulated by at least one link (29) to one of the arms adjacent to the ground joint (4) of said diamond. 10) Barrier according to claim 9, characterized in that the end of the rod (27) of the cylinder (26) is hinged to the connecting rod (29) via at least one roller (28). 11) Barrier according to one of claims 8 to 10, charac-sed in that one (6') of the two sub-saddle joints (10') of at least some of the diamonds (3') are interconnected by a link bar (30). 12) Barrier according to one of claims 8 to 11, charac-sed in that at least some of the sub-saddle joints (7') are stressed by a compression spring making in particular office as a means of shock absorber on the descent. 13) Barrier according to one of claims 1 to 12, charac-sed in that the under-heel rod has several connected sections between them by articulated connections (17) thus making it possible to kill a broken line barrier. 14) Barrier according to one of claims 1 to 13, charac-see in that the ground joint (4) is fixed to a base (1) for-manning at least one plinth, said plinth being intended to be fixed or to rest on the ground. 15) Barrier according to claim 14, characterized in that the base (1) has the shape of a U. 16) Barrier according to one of claims 14 and 15, character-laughed in that the base (1) is intended to be placed in a excavation provided for this purpose. 17) Barrier according to claim 16, characterized in that the base (1) is framed on either side of its length by elements (19,20) forming a ramp and in that it is hinged (24,25) to at least one of said elements (19,20) which rests on the ground in such so that the other element lifts when the barrier is forced open towards the articulated element. 18) Barrier according to one of claims 1 to 17, charac-sed in that the ends of the heald (2) are slidably mounted in two side uprights (21,22). 19) Barrier according to claim 18, characterized in that means (23) are provided in at least one of the uprights (21,22) to activate the barrier by acting on the arm (2).