SUPPORT PLATFORM FOR WORKERS DEALING WITH MAINTENANCE AND CONSTRUCTION OF MEANS OF TRANSPORT
A support platform (100) for workers dealing with maintenance and construction of a means of transport (NT). The platform (100) comprises: a motorised carriage (1); a horizontal walkway (PDN) supported by the motorised carriage (1); and devices for lifting/lowering the walkway (PDN). The platform (100) is characterised in that the walkway (PDN) comprises a plurality of short planes (9A-9G) parallel to one another that in withdrawn position are piled one on top of the other, whereas in extended position are configured as steps, one after the other. The total surface of the extended short planes (9A-9G) substantially constitutes the walkable surface of the walkway (PDN).
The present invention relates to a support platform for workers dealing with maintenance and construction of a means of transport, like a craft, a railway car, a locomotive, an aeroplane, a lorry or the like.
Without becoming lost in generalities, in the rest of the present description we shall refer to the ship building field, even if the teachings of the present invention are also applicable to the construction/repair of other means of transport like railway cars, locomotives, aeroplanes, etc.
It is known how means of transport, for example water craft, need frequent ordinary and extraordinary maintenance operations to be performed. For this purpose in shipyards repair basins are prepared where the craft in need of repair is placed whenever interventions of a certain intensity have to be carried out, i.e. requiring the help of special infrastructures or a specialised workforce.
Of particular importance is the restoration/replacement of the external components of the plating or of parts of the propulsor apparatus like propeller shafts and propellers, rudders, etc. This is firstly because such components are subject to greater wear, and therefore require more frequent and numerous repairs. Secondly, it is because these components are generally more critical from the point of view of safety of travel of the craft. Finally, it is because they create greater logistic difficulties, due both to the need to work a certain height from the ground and the need to use complex and bulky machinery/instruments.
Normally, in shipyards scaffolding is used that is made through assembly of metallic tubes. Otherwise lifting electric walkways for construction use are used that almost always need to be fixed to the wall. The use of such apparatuses in shipyards has proven to be particularly dangerous because the specialised worker very often has to perform complex tasks (cutting, welding, surfacing, etc.) that can be the cause of falls with even mortal outcomes.
In the ship building field there is therefore a great need to have equipment able to facilitate the task of workers, allowing them to work with the greatest ease and in maximum safety on all external parts of the hull of the craft.
Therefore, the main purpose of the present invention is to fully satisfy the aforementioned requirement, in particular providing a platform that, through an original combination of its components, is capable of substantially improving the quality of the maintenance work on the outside of the craft, increasing the productivity of the repair work and at the same time increasing safety.
According to the present invention a support platform is thus made for workers dealing with maintenance of a means of transport, in accordance with the attached claims.
The present invention will now be described with reference to the attached drawings, which illustrate some non-limiting example embodiments thereof, in which:
In the attached figures reference numeral 100 wholly indicates a support platform for workers dealing with maintenance of a means of transport, in particular of a water craft (NT).
In particular, in
As can be seen from the comparison between
Moreover, in the repair of hulls of water crafts, it must be kept in mind that such hulls have extremely complex shapes, designed according to the most widely varying technical requirements. In fact,
With reference to
Alternatively, the carriage 1 can be supported by tyres (not illustrated). Moreover, the two front sides of the carriage 1, i.e. those corresponding to the fronts in the direction of travel, are provided with end stop devices (not illustrated), with anti-collision safety function.
In order to increase the stability of the platform 100 at least one pair of feet (PD) is provided that are extended when needed.
Two uprights 2 project up from the sides 1A of the carriage 1, from which uprights 2 a bracket structure 3 extends horizontally, above the carriage 1. The bracket structure 3 is slidably supported by the uprights 2, so as to be able to be raised and lowered as desired under the action of a system fed by an oil-hydraulic, pneumatic, electric or mechanical circuit by rack and pinion, worm screws, chains and cables, not represented in detail but in any case with obvious configuration for a man skilled in the art.
The bracket structure 3 in turn supports the said walkway (PDN), intended to support the workers dealing with maintenance and for this purpose it is equipped with perimeter railings 4 (
The walkway (PDN), in accordance with the bracket structure 3, can have a greater or lesser width than the carriage 1.
As shall be seen more clearly hereafter, the walkway (PDN) comprises a plurality of short planes (from 9A to 9G) stacked on top of one another that can translate horizontally, separately from one another, and in a direction normal to a direction of advance movement (according to a double-pointed arrow (F)) of the carriage 1.
As shall be seen more clearly hereafter, the short planes 9A-9G are moved horizontally to “copy” as much as possible the profile of the hull.
The short planes 9A-9G are provided with a pneumatic sensitive edge (made on the outside from rubber or another material) that prevents violent collision against the surface of the water craft, the aeroplane, the rail vehicle or other, and that can be connected to the control system in order to shut down the system.
As we shall see, the moving of the short planes 9A-9G, through suitable actuator means, also provides the oil-hydraulic, mechanical or electric circuit with the various systems quoted above.
The workers working on the walkway (PDN) need means for supplying the tools/instruments commonly used for repair/maintenance. For this purpose, the platform 100 according to the invention is connected to circuits for supplying resources like, typically, oxygen, combustible gas, oil, compressed air, water and electricity, and the latter can also be intended to feed the propulsion of the platform 100 and its parts.
As can be clearly seen in particular in
The platform 100 also comprises at least one retractable stair (SC) and at least one control station (CC) for controlling the raising/lowering of the bracket structure 3, and therefore of the walkway (PDN).
It should also be noted that the control station (CC), provided with a suitable network of sensors that, according to what is per se obvious to the man skilled in the art, manages the programmed logic of the movements of the platform 100.
Regarding this, it must be noted that, in order to avoid the possibility of damages to the water craft (NT), the management system of the control station (CC) prevents the actuation of the bracket structure 3 when the walkway (PDN) is in the extended position.
One or more operating points (OP) are provided on the bracket structure 3, which are fed through electrical mains and/or hydraulic circuits, etc. To enable the workers to work at the same time at different points of the walkway (PDN) on the same side of the water craft (NT).
It should also be noted how the movement of the carriage 1 and the raising of the bracket structure 3 (and therefore of the walkway (PDN)) allows the workers to work with maximum ease and safety at any height and in any longitudinal location with respect to the side of the water craft (NT).
The positioning of the bracket structure 3 at the desired height necessarily takes place with the short planes 9A-9G of the walkway (PDN) in withdrawn position (
When the bracket structure has reached the desired height it is possible to extend one or more short planes 9A-9G towards the side of the water craft (NT) (
In order to ensure that the edge (BE) gets as close as possible to the profile of the hull it has proven very useful to use substantially triangular or trapezoidal appendices (AP1), (AP2) (
The appendices (AP1), (AP2) are also provided with a pneumatic sensitive edge that prevents violent collision against the surface of the means of transport (NT) and that is electrically connected to the command station (CC) in order to shut down the system.
The worker, after having extended all of the short planes 9A-9G that follow the profile of the hull of the water craft (NT) (with the system that shall be described in greater detail hereafter), in order to fill possible empty spaces remaining between the last extended short plane 9A-9G and the profile of the hull itself, mechanically or manually rotates at least one appendix (AP1), (AP2) around its hinge (CRN1), (CRN2) by an angle such as to follow the curved profile of the hull as closely as possible. After this operation the worker fixes (with known means that are not shown) the position of the appendices (AP1), (AP2) involved.
It should also be noted that both the outer edges of the short planes 9A-9G, and those of the appendices (AP1), (AP2) are rectilinear, whereas the profiles of the hulls generally have a curvilinear extension. Therefore, there cannot be perfect “copying” of the outer edge (BE) on the actual profile of the side of the hull, but the approximation is still acceptable and safe for the users of the platform 100.
With reference to
In the second embodiment shown in
As shown in the rest position of
Of course, in the rest configuration of
As shown in greater detail in
In turn, each bearing structure (SP) comprises a beam 11 of the HE type (UNI—5397-64), commonly known as “double T beam” where the two horizontal flanges 11A and 11b respectively have a height practically equal to that of the vertical central web 110 (
A vertical plate 12 that is the ideal downward continuation of the vertical central web 11C of the beam 11 (
As shown in
The intermediate beam 13, in turn, comprises two horizontal flanges 13A, 13B separated by a vertical web 13C. The intermediate beam 13 can also be formed from a commercial preformed profile or welded and worked.
Moreover, as shown in
Similarly, between a second face 13C** of the web 13c of the intermediate beam 13 there is a pair of wheels (WL3), (WL4) each having its own rotation axle (AXL3), (AXL4) fixed with respect to the web 11c of the beam 11 belonging to the bearing structure (SP2). Moreover, the wheels (WL1)-(WL4), in the described system, have the function of shouldering and resisting the lateral thrusts.
The operation of the translation mechanism of the short planes 9B-9G is the following:
-
- if, for example, an actuator (not shown) pushes the short plane 9D horizontally (and therefore pushes its relative bearing structure SP2), the relative beam 11 and the relative plate 12 move horizontally, rolling with the wheels (WL3) and (WL4) on the guide consisting of the face 13c** of the intermediate beam 13 and the side inner parts of the flanges 13A, 13B;
- the movement of the beam 11 and of the plate 12 of the bearing structure SP2 continues until a wheel (WL4)* (
FIG. 10 ) (which is located at the plate 12 of the bearing structure SP2) goes into abutment against an end stop provided on the track made on the face 13C** belonging to a bearing structure (SP3); - therefore, by continuing to push on the short plane 9D the intermediate beam 13, which is located between the bearing structure (SP2) of the short plane 9D and the bearing structure (SP3) of the short plane 9E, also starts to be pulled horizontally;
- the horizontal pulling of the intermediate beam 13* translates into a horizontal pulling of the short plane 9E and also of all of the other short planes 9F, 9G due to the concatenation that exists with the other bearing structures (for example SP4), which, however, are located below the surface 10D and therefore cannot be walked upon; in any case, as shown in
FIG. 13 , the total walkable surface of the walkway (PDN) is given by the sum of the usable portions of the walkable surfaces 10A, 10B, 10C, 10D; - by acting now with another actuator (not shown) on the short plane 9E, a portion of the walkable surface 10E will project and thus in this way it shall be possible to extend the total walkable surface facing towards the means of transport (water craft, rail wagon, locomotive, aeroplane and the like) to be repaired or constructed; the underlying short planes 9F and 9G shall be pulled with the same mechanism seen previously; of course, their surfaces cannot be walked upon (
FIG. 13 ).
Although in
It can easily be understood how the platform according to the invention fully achieves the predetermined purpose, in practice by providing a mobile production area, easy to configure to satisfy any specific positioning requirement of the workers with respect to the means of transport to be repaired or constructed. Moreover, it is able to provide the workers themselves with the resources needed for the most widely varying types of intervention, even the most qualified ones. All of this with the maximum safety. The quality and productivity of the maintenance or construction work are in this way substantially increased.
Claims
1. A support platform (100) for workers dealing with maintenance of a means of transport (NT); platform suitable for being arranged adjacent to a side of said means of transport (NT); the platform (100) comprises:
- a motorised carriage (1), one side of which, extending along the direction of forward movement, is intended to be arranged adjacent to the side of said means of transport (NT);
- a horizontal walkway (PDN) supported by said motorised carriage (1); and
- means for lifting/lowering said walkway (PDN);
- said walkway (PDN) comprising a plurality of short planes (9A-9G) parallel to one another that in withdrawn position are piled one on top of the other, whereas in extended position are configured as steps, one after the other; the total walkable surface of the extended short planes (9A-9G) substantially constituting the walkable surface of said walkway (PDN); and
- said walkway (PDN)* further comprising a first short plane (9A*) that extends practically for the entire length of the bracket structure (3), and a series of short planes (9B*, 9B**, 9C) that have a length in any reduction ratio with respect to the first short plane (9A*).
2. (canceled)
3. The platform (100) of claim 1, wherein any short plane (9A, 9B, 9C; 9A*, 9B*, 9C*) is provided with a relative appendix (AP1; AP2; AP1*, AP2*) pivoted to a respective hinge (CRN1, CRN2; CRN1*, CRN2*).
4. The platform (100) of claim 1, further comprising an actuator, wherein, if the actuator pushes a short plane (9D) horizontally, and thus pushes its relative bearing structure (SP2), a relative beam (11) and a relative plate (12) move horizontally rolling with the wheels (WL3) and (WL4) on the guide consisting of a face (13c**) of an intermediate beam (13) and the side inner parts of its flanges (13A, 13B); the movement of the beam (11) and of the relative plate (12) of the bearing structure (SP2) continuing until a wheel (WL4)*, which is located at the plate (12) of the bearing structure (SP2), goes into abutment against an end stop provided on the runway made on the face (13C**) belonging to a bearing structure (SP3); therefore, by continuing to push on the short plane (9D) the intermediate beam (13*) that is located between the bearing structure (SP2) of the short plane (9D) and the bearing structure (SP3) of the short plane (9E) also starts to be pulled horizontally.
5. The platform (100) of claim 4, wherein the horizontal pulling of the intermediate beam (13*) originates a horizontal pulling of the short plane (9E) and also of all of the other short planes (9F, 9G) due to the concatenation that exists with the other bearing structures, which, however, are located below the surface (10D) and therefore cannot be walked upon; the total walkable surface of the walkway (PDN) being given by the sum of the usable portions of the walkable surfaces (10A-10G).
6. The platform (100) of claim 4, wherein each short plane (9B-9G) is in a raised position compared to the previous one.
7. The platform (100) of claim 1, wherein said platform further comprises at least one control station (CC) for controlling the raising/lowering of the bracket structure (3), and therefore of the walkway (PDN), according to a programmable logic.
8. The platform (100) of claim 7, wherein, to avoid possible damage to the means of transport (NT), the management system of the electronic control station (CC) is suitable to prevent the actuation of the bracket structure (3) when at least one portion of the walkway (PDN) is in extended position.
9. The platform (100) claim 7, wherein said short planes (9A-9G; 9A*-9G*) and appendices (AP1; AP2; AP1*, AP2*) are provided with a pneumatic sensitive edge that prevents violent collision against the surface of the means of transport (NT), such an edge being connected to said control station (CC) in order to shut down the system.
10. The platform (100) of claim 1, wherein the bracket structure (3) further includes one or more operating points (OP) supplied with power through the electrical mains and/or hydraulic circuits etc., to allow the workers to work simultaneously on different points of the walkway (PDN) on the same side of the craft (NT).
Type: Application
Filed: May 29, 2009
Publication Date: Mar 31, 2011
Applicant: OFFICINE MECCANICHE RICCI S.R.L. (S. Giovanni (AR))
Inventor: Francesco Ricci (Loro Ciuffenna)
Application Number: 12/995,708
International Classification: E04G 1/22 (20060101);