SIGNALLING AND BARRIER SYSTEM AND PROCESS OF HANDLING THEREOF

Abstract

The present invention refers to a signalling and barrier system, such as for traffic regulation, comprising a plurality of modules (1) adapted so that can collect a ballast means and that can be connected laterally to each other, said modules (1) presenting a base (11) and a top part (12).

The present invention further refers to a process of handling of said signalling and barrier system.

Claims

1. A system for providing signaling and barrier functions, such as for regulation of road traffic, comprising a plurality of modules adapted so that they can be engaged with each other in respective lateral edge regions, each module presenting: a central region developing in a first direction and with a front wall and a back wall developing upwards from j base region adapted for placement on a paved surface, two lateral regions that develop outwards from opposite lateral edges of said central region, in a second direction, backwards and forming a shape angle non-orthogonal in relation to said central region, whereby said central region and lateral regions are provided as a single piece and where the front and back walls are devoid of through openings, characterized in that said module presents the central region with a cross-section when seen in a side view, of different shape and different dimension from the cross-section of the lateral regions when seen in the side view.

2. The system according to claim 1, in which said module presents front and back walls that develop in an oblique direction in relation to a direction of a gravity force in said central region and that develops at least approximately parallel to the gravity direction in said lateral regions.

3. The system according to claim 1, in which said module presents, in said central region, a lateral cross-section of generally trapezoidal shape when seen in a side view, whereby respective base regions present a width that is smaller than half, preferentially smaller than a quarter of the length, and are bigger, preferentially at most two times bigger than respective top regions.

4. The system according to claim 1, in which said module presents a central region that corresponds to at least half, preferentially to more than half of a total extension of said module along said first direction, and in which the transition regions between said central region and said lateral regions develop at least approximately in curve, devoid of sharp edges between plane surfaces.

5. The system according to claim 1, in which said module presents a central region and lateral regions that confine a common collection space adapted so that they can collect a ballast means inside thereof.

6. The system according to claim 1, in which said shape angle (α), corresponding to a smaller angle formed by a central plane of said lateral regions a central plane of said central region of the module, is comprised between 10° and 80°, preferentially between 30° and 60°.

7. The system according to claim 1, in which said module presents a base part and a top part that extend along the extension of the module in a first direction, and are provided as at least one of: a single piece that confines a single interior space and presenting a single entry by means of ballast and fluid communication between said base and top parts, in two separate pieces that confine two interior spaces provided with respective entries of ballast means, whereby said entries of the ballast means are adapted so that thy can be closed by a module connection means, in particular by a cavity element.

8. The system according to claim 1, in which said module further comprises a module connection means adapted so that the module connection means provides a removable connection with laterally disposed neighbouring modules, and in that said module connection means are provided on opposite lateral edge parts of said module, whereby one of said lateral edge parts is provided on said base part and the other lateral edge part is provided on said top part, and whereby one of said lateral edge parts presents a downwards-oriented tooth element, and the other lateral edge part presents an upwards-oriented cavity element, at a height and configured in corresponding manner to said tooth element, in a manner of male-female type connection.

9. The system according to claim 8, which said module connection means presents cavity elements configured as lids of openings adapted for providing filling of a space confined inside with a ballast means, whereby said lids preferentially further present a mechanic engagement, for example of a screw thread type or similar, for removable retention of the cavity elements in respective openings.

10. The system according to claim 1, in which said module connection means are provided in opposite lateral edge regions of said base and top parts that develop in an alignment similar to that of said central region, including a lateral edge region of the lateral region of said base part, whereby in this case includes a cavity element, and on a lateral edge region of the opposite lateral region of said top part, whereby in this case includes a cavity element and a tooth element, whereby said tooth element and cavity element present an engagement shape of tubular type with a cross-section for example of a circular shape.

11. The system according to claim 1, in which said module presents: a base part presenting a base region adapted so that the module can be placed upon a paved surface, and a top region, and a top part presenting a base region and with a width that corresponds at least approximately to the width of the top region of said base part, whereby said base and top parts are provided as different pieces.

12. The system according to claim 1, in which said module presents respective frontal and posterior walls that develop along directions that are similar and symmetric with relation to a central plane of said central region and lateral regions, configured so that a plurality of modules can be disposed adjacently to each other, for example with ones stacked upon the others, in dispositions with respective base and top regions successively alternated.

13. The system according to claim 1, in which said module is produced in a synthetic material, preferentially by means of a plastic extraction method or by a similar method.

14. A process of handling of a barrier and signalling system, in particular of a system according to claim 1, which comprises the following steps: providing a first module disposed standing upon a base region thereof, or laying upon a back wall of the central region thereof and with respective edge regions oriented upwards; providing a second module adjacently next to said first module and standing upon a top region thereof, or laying upon the back wall of the central region thereof and with respective edge regions oriented upwards, respectively in alternated manner respective to said first module, optionally, repeating at least one of previous steps with additional modules.

15. The process according to claim 14, including: connecting two modules arranged successively along a barrier alignment by means of engagement of a tooth element provided on a second lateral edge of a first module inside of a lid element provided on a first lateral edge of a second module; optionally, repeating the previous step with additional modules, and preferentially, further includes the steps: filling an interior of a first module with a ballast means, for example water, after removing the lid element provided on a second lateral edge of the module; emptying the interior of a first module of respective ballast means, after removing at least one of the lid elements provided on a first and on a second lateral edge of said module.

Description

DESCRIPTION OF THE FIGURES

[0026] The present invention shall be explained hereinafter with greater detail based upon the preferred embodiments and upon the attached Figures.

[0027] The Figures shows, in simplified schematic representations:

[0028] FIG. 1: Perspective view of an embodiment of module (1) of a system according to the present invention;

[0029] FIG. 2: front view of said embodiment of module (1) in a standing position;

[0030] FIG. 3: perspective view of a plurality of modules (1) according to the invention, disposed in adjacent manner in a standing position upon a standard pallet;

[0031] FIG. 4: top views of said embodiment of module (1) according to the invention;

[0032] FIG. 5: side (of the right-hand side) and cut views (AA) according to FIG. 4, of a module (1) according to the invention;

[0033] FIG. 6: cut (BB) (of the right-hand side) and curt views (CC) according to FIG. 4, of module (1) according to the invention;

[0034] FIG. 7: top view of a plurality of modules (1) disposed as represented in FIG. 3;

[0035] FIG. 8: cut view (DD) according to FIG. 7;

[0036] FIG. 9: side view of a plurality of modules (1) arranged as represented in FIG. 3;

[0037] FIG. 10: frontal view of a plurality of modules (1) disposed as represented in FIG. 3.

DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

[0038] FIGS. 1 and 2 represent views of an embodiment of a module (1) of a traffic signalling and barrier system according to the present invention.

[0039] Said module (1) presents a central region (111, 121) developing along a first direction and with a frontal wall and a posterior wall developing from the base region, and further presents module connection means (13, 14) adapted so that provide removable connection with laterally arranged neighbouring modules (1).

[0040] According to a first inventive aspect, said module (1) further presents two lateral regions (112, 122; 113, 123) that develop laterally in a second posterior direction and forming an acute shape angle (α) with relation to said central region (111, 121).

[0041] It is preferred when said module (1) presents a central region (111, 121) that corresponds to at least half, preferentially more than half of the total extension of said module (1) along said first direction.

[0042] It is further preferred when said module (1) presents a central region (1) and lateral regions (112, 122; 113, 123) developing in different directions, and said central and lateral regions confine a common collection space adapted so that can collect a ballast means inside thereof.

[0043] This disposition of said lateral regions (112, 122; 113, 123) advantageously provides a smaller construction volumetric with better sustentation of the module (1), for a given length of barrier provided by the same, while simultaneously providing the possibility of disposing a plurality of modules (1) with smaller storage occupation volume, as represented in FIG. 3.

[0044] As can be observed in FIGS. 4, 5 and 6, these advantages are reinforced when said module (1) presents frontal and posterior walls that develop along oblique directions with relation to the direction of the gravity force in said central region (111, 121) and that develop at least approximately parallel to the direction of the gravity force on said lateral regions (112, 122; 113, 123).

[0045] As can be further observed in FIG. 4, said shape angle (α), corresponding to the smaller angle formed by a central plane of said lateral regions (112, 122; 113, 123) and a central plane of said central region (111, 121) of module (1), is comprised between 10° and 80°, preferentially between 30° and 60°.

[0046] In fact, this interval of angle of said lateral regions (112, 122; 113, 123) reveals as particularly advantageous for the configuration of the module (1) both in terms of sustention reliability, as in terms of simplicity and reduction of the volume of stacked storage.

[0047] As can be further observed in FIG. 5, it is further preferred when said module (1) presents, on said central region (111, 121), a lateral section of generally trapezoidal shape when seen in side view, whereby respective base regions present a width D1, D2) smaller than half, preferentially smaller than a quarter of the length (L1, L2), and are bigger, preferentially at most two times bigger than respective top regions.

[0048] According to a preferred embodiment, each module (1) presents a base part (11) and a top part (12) that extend along the extension of module in said first direction, and are provided as at least one of: in a single piece that confines a single interior space and presenting a single entry of ballast means and a fluid communication between said base (11) and top parts (12), and in two separate pieces that confine two interior spaces provided with respective entries of ballast means.

[0049] In particular, said module (1) can comprise a base part (11) presenting a base region (111) adapted so that can be placed upon the pavement, and a top region (112), and a top part (12) presenting a base region (121) and with a width that corresponds at least approximately to the width of the top region (112) of said base part (11), whereby said base (11) and top parts (12) are provided as different parts.

[0050] It is preferred when said entries of ballast means are adapted so that can be closed by said module connection means (14), in particular by the cavity element (14).

[0051] The ballast means preferentially used in the module (1) according to the present invention shall be a fluid means, such as for example a liquid such as water.

[0052] As can be easily derived from the Figures, the traffic system of barrier type according to the present invention comprises a plurality of modules (1) that can be retained ones in the others in removable manner by means of said module connection means (13, 14) provided in opposing lateral edge parts of said module (1), whereby one of said lateral edge parts is provided on said base part (11) and the other lateral edge part is provided on said top part (12), and whereby presents a downwards-oriented tooth element (13) on one of the lateral edge parts, and presents a upwards-oriented cavity element (14) on the other lateral edge part, at a height and configured in corresponding manner to said tooth element (13), in a manner of male-female type connection.

[0053] According to a preferred embodiment, said module connection means (13, 14) present cavity elements (14) configured as lids of openings adapted for filling of the space confined inside with a ballast means, whereby said lids further preferentially presents a mechanic engagement, for example of screw thread type or similar, for removable retention of cavity elements (14) in respective openings.

[0054] It is further preferred when said modules connection means (13, 14) are provided in the opposing lateral edge regions of said base (11) and top parts (12) that develop along an alignment similar to the one of said central region (11, 12), including a lateral edge region of said base part (11), whereby in this case includes a cavity element (14), and on a lateral edge region of the opposite lateral region of said top part (12), whereby in this case includes a cavity element (14) and a tooth element (13), whereby said tooth element (13) and cavity element (14) present an engagement shape of tubular type with a cross-section of circular shape.

[0055] As can be further observed in FIGS. 7 and 10, the modules (1) according to the present invention are configured so that provide the placement of 5 modules on a pallet of standard dimensions, for example placed standing ones next to the others and with alternating orientations of respective base and top parts.

[0056] It is preferred when said module (1) presents respective frontal and posterior walls that develop along similar and symmetric direction relative to a central plane of said central region (11, 12) and lateral regions (112, 122; 113, 123), configured so that a plurality of modules (1) can be disposed adjacently, for example piled up ones upon the others, in dispositions with respective base and top regions successively alternated.

[0057] It is further preferred when said module (1) is produced in a synthetic material by means of plastic extrusion method.

[0058] A process according to the present invention of storing modules (1) therefore comprises the steps of providing a first module (1) disposed standing upon a base region, or lying on the posterior wall of respective central region and with respective edge regions oriented upwards, and afterwards providing a second module (1) adjacent on the side of said first module (1) and disposed standing upon a top region, or lying on the posterior wall of respective central region and with respective edge regions oriented upwards.

[0059] These steps can be successively repeated with additional modules (1).

[0060] A process according to the present invention of disposing a plurality of modules in a traffic barrier alignment includes connecting two modules (1) disposed successively along a barrier alignment by means of engagement of a tooth element (13) provided on a second lateral edge of a first module (1) inside of a lid element (14) provided in a first lateral edge of a second module (1).

[0061] It is preferred when the process further includes filling the interior of a first module (1) with a ballast means, for example water, after removing said lid element (14) provided in a lateral edge of module (1).

[0062] After use of the barrier system in a given barrier disposition, the process can include emptying the interior of a first module (1) from respective ballast means, after removing at least one of lid elements (14) provided in a first and second lateral edge of said module (1).