NL2009244C2 - Passenger car transport device and method for packaging cars for transport. - Google Patents
Passenger car transport device and method for packaging cars for transport. Download PDFInfo
- Publication number
- NL2009244C2 NL2009244C2 NL2009244A NL2009244A NL2009244C2 NL 2009244 C2 NL2009244 C2 NL 2009244C2 NL 2009244 A NL2009244 A NL 2009244A NL 2009244 A NL2009244 A NL 2009244A NL 2009244 C2 NL2009244 C2 NL 2009244C2
- Authority
- NL
- Netherlands
- Prior art keywords
- sides
- passenger car
- cars
- transport device
- row
- Prior art date
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D85/00—Containers, packaging elements or packages, specially adapted for particular articles or materials
- B65D85/68—Containers, packaging elements or packages, specially adapted for particular articles or materials for machines, engines or vehicles in assembled or dismantled form
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D2585/00—Containers, packaging elements or packages specially adapted for particular articles or materials
- B65D2585/68—Containers, packaging elements or packages specially adapted for particular articles or materials for machines, engines, or vehicles in assembled or dismantled form
- B65D2585/6802—Containers, packaging elements or packages specially adapted for particular articles or materials for machines, engines, or vehicles in assembled or dismantled form specific machines, engines or vehicles
- B65D2585/686—Containers, packaging elements or packages specially adapted for particular articles or materials for machines, engines, or vehicles in assembled or dismantled form specific machines, engines or vehicles vehicles
- B65D2585/6867—Containers, packaging elements or packages specially adapted for particular articles or materials for machines, engines, or vehicles in assembled or dismantled form specific machines, engines or vehicles vehicles automobiles
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Stackable Containers (AREA)
Description
P94186NL00
Title: Passenger car transport device and method for packaging cars for transport.
The invention relates to a passenger car transport device. The invention further relates to methods for packaging passenger cars for transport.
For transporting cars overseas, for example from a manufacturing 5 site to retail areas, it is commonly known to use for example Roll-on Roll-off (Ro-Ro) ships. These have a number of decks onto which cars can be driven individually and secured in their places by suitable securing means, if desired. For each car this means that a designated driver has to collect the car from a quay side parking area, drive the car to the ship and onto the desired deck, 10 secure the car and then walk back to the parking area to collect a next car. Disembarking the cars leads to the same method, in reverse order. Use of RoRo ships for this purpose is therefore very labour intensive, time consuming and thus costly. Moreover the risk of driving and parking accidents is substantial, potentially leading to material damage to the cars and/or personal 15 injury to the designated drivers and further personnel.
It is known to transport passenger cars, especially luxury cars, in closed containers, dedicated for such transport. For example in US2005/0006261 a container is disclosed in which a number of passenger cars can be transported. To this end the container is provided with support 20 structures and guide elements to load the desired number of cars into the container. The structure and guide elements comprise support structures for suspending some of the cars at an angle relative to the floor of the container, in such a position that another car can be placed on the floor, at least partly below the suspended car. The container comprising for example six passenger 25 cars can then be handled as one unit, for example on a truck or rail way cart.
2
Sides of the container have to be reinforced at least partly in order to be able to carry the weight of the suspended cars.
Positioning the cars into the containers is again time consuming and has to be performed with utmost care, not to damage the cars. Moreover, the 5 cars have to be stacked securely and accurately, in order to prevent contact between the cars. Furthermore, for drivers getting into and/or out of the cars in the container can be very difficult, if not impossible, due to the limited with of the internal space of the container.
The present disclosure aims at providing an alternative device for 10 transporting cars, especially passenger cars.
Another aim of the present disclosure is to provide for a device for transporting passenger cars, which allows including the devices into regular container freight systems, such as container ships and loading systems.
Another aim of the present disclosure is to provide for a device for 15 transporting a series of passenger cars, which cars can be handled with the device as one unit.
In an aspect a set of two passenger car devices can be characterised in that they can be stacked, that is the one placed on top of the other, together having the sizes and dimensions of a standard freight container of 20 or 40 20 foot. A relevant norm would for example be an ISO standard, such as ISO R668 or equivalent standards. Preferably the two stacked devices can then together be handled as one such standard freight container. The devices preferably have a substantially open top side, more preferably a substantially open top side and sides. Standard corner fittings can be provided in each 25 corner of each of the devices, for stacking and handling.
In an aspect a pass car transport device can be characterised in that it is substantially box shaped, having a bottom, top and sides, wherein the bottom comprises at least two first cross bars between the sides and at least one driving surface extending in a length direction of the bottom. The driving 30 surface lies at least partly below an upper surface of at least one and 3 preferably at least two of the first cross bars. Near the top at least two second cross bars can be provided between the sides. At least one end of the device provides an in-ride and/or exit opening for passenger cars driving over the at least one driving surface. Preferably the top side, and more preferably the top 5 side and the sides are substantially open. Preferably the top side comprises two parallel beams at either side of the device, between which a space is provided into which a part of a roof of a passenger car parked on the at least one driving surface can extend.
In an aspect a passenger car transport device has a maximum 10 outside height of 1.6 meter or less, preferably 1550 mm or less, wherein a height measured between the at least one driving surface side facing inward and a side of a second cross bar facing the driving surface is less than 1.5 m, preferably less than 1450 mm, wherein the device preferably has a maximum outside width of between 2.3 and 2.5 m, more preferably between 2.4 and 2.5 15 m, for example about 2438 mm, wherein the device preferably has a frame opening width of less than 2200 mm, more preferably between 2200 and 2000 mm, more preferably between 2100 and 2150 mm.
In an aspect a method can be provided for packaging passenger cars for transport, wherein at least one passenger car is driven onto at least one 20 and preferably onto two adjacent driving surfaces, over part of at least one cross bar between sides of a transport device, through an in-ride opening. Before driving the car onto said at least one driving surface at least one cross bar is at least partly removed from the in-ride opening, temporarily increasing the height of the in-ride opening, wherein said cross bar is replaced between 25 the sides after driving the vehicle in or out of the transport device, preferably such that at least part of at least part of at least one car on the or each driving surface extends between the sides and between at least two cross bars, wherein at least two devices comprising cars are stacked on top of each other, forming an ISO freight container sized unit having ISO corner fittings for 4 freight containers. The cars shall preferably not extend above the top of the device.
In further elucidation of the present invention embodiments of a transport device, method and set shall be discussed hereafter, with reference 5 to the drawings, which are shown by way of example only and should in no way be explained as limiting the scope of the present invention in any way. These drawings show:
Fig. 1 a view of two devices stacked one on top of the other, seen from an end; 10 Fig. 1A schematically a first cross bar between two sides of the device;
Fig. IB an end view of a device of the present disclosure;
Fig. 2 in front and side view schematically part of two devices stacked one on top of the other; 15 Fig. 3 is a partial side view of a device with a passenger car in the device, on the driving surfaces;
Fig. 4 a cross sectional view along the line IV - IV in fig. 2 of a device, showing driving surfaces;
Fig. 5 a cross sectional view along the line V - V in fig. 2 of a device; 20 Fig. 6 a front and cross sectional side view a device, in an alternative embodiment;
Fig. 7 schematically a detail view of a cross beam with connection thereof in the device;
Fig. 8 schematically a detail view of a lock beam with connection 25 thereof in the device; and
Fig. 9 schematically a number of cars in a device of the present invention.
Fig. 10 - 12 show an alternative embodiment of a device for transporting cars; and 5
Fig. 13 and 14 show in side view a still further embodiment of a device for transporting cars.
In this description and drawings the same or similar elements will have the same or similar reference signs. The drawings are provided by way of 5 examples only and should be understood as such. Passenger cars has to be understood as automobiles or luxury cars, limousines, town cars and the like, intended for transport of passengers, especially cars for one to about six occupants. Transport and shipping should be understood as including but not limited to movement of the devices with cars position therein, by ship over 10 water such as but not limited sees or oceans, and/or by road or rail. Freight containers has to be understood as including but not limited to containers according to for example ISO R688, preferably having corner fittings according to ISO R1161.
Fig. 1 shows an end view of an embodiment of two devices 1 of the 15 present disclosure, stacked one on top of the other. Each of the devices can be a car transport device 1 which is substantially box shaped. Each device 1 has a bottom 2, a top 3 and sides 4. The bottom 2 comprises at least two first cross bars 5 between the sides 4 and at least one driving surface 6 extending in a length direction L of the bottom 2. The devices have a width W, measured 20 perpendicular to the length or length direction L, and a height H measured perpendicular to the length L and width W.
In the embodiment as shown in fig. 1 two parallel driving surfaces 6 are shown, spaced apart over a distance Wl. The or each driving surface 6 preferably lies at least partly below an upper surface 7 of at least one and 25 preferably at least two of the first cross bars 5. Near the top 3 of the device 1 at least two second cross bars 8 are provided between the sides 4. At least one end 9, 10 of the device 1 provides an in-ride and/or exit opening 11 for passenger cars 12 driving over the at least one driving surface 6.
In the embodiment shown in fig. 1 and 2 there are three second cross 30 bars 8 between the sides, preferably spaced substantially evenly. A second 6 cross beam positioned near a middle of the device, seen in length direction L, can be mounted permanently to the sides, for example by welding, bolting or the like. The other two second cross beams 8 are positioned at the two opposite ends 9, 10 and at least one thereof and preferably both can be connected to at 5 least one of the sides 4 such that it or they can at least partly be removed, for example by dismounting or by swivelling, in order to open up the full height of the respective end 9, 10 above the driving surface or driving surfaces 6, between the sides 4.
As can be seen in the drawings the driving surface or surfaces 6 are 10 formed by substantially plate shaped elements 13 having a thickness T
measured in the height direction of the device of a few millimetres, for example between 2 and 10 mm, such as but not limited to about 3 to 5 mm. In the embodiment shown the thickness T can be about 4 mm. The or each driving surface 6 preferably forms part of a bottom support structure, together with or 15 as part of the first cross bars 5. The first cross bars 5 can have a significantly greater thickness Tb, measure in the height direction H of the device, for example a few centimetres or more. In an embodiment the thickness Tb can be between 1 and 20 cm, preferably between 1 and 15 cm, more preferably between 5 and 15 cm, such as but not limited to about 12 cm. The first cross 20 bars 5 can for example be formed from tubes, which can have a square or rectangular cross section. In an embodiment there can for example be two of such cross beams 5 spaced apart from each other and from the ends 9, 10, whereas further cross beams 14 can be provided in between these two first cross bars 5, for example again regularly spaced, having a smaller dimensions, 25 for example a lower height or thickness.
In this description a first cross bar 5 can be formed as schematically shown in fig. 1A. A first cross bar 5 can be an element or series of interconnecting elements extending by itself or together between the sides 4 of the device l, near or in a bottom 2 thereof, and can include a cross sectional 30 part of a driving surface or driving surfaces 6. In the embodiment of fig. 1A a 7 first cross bar 5 comprises from left to right in the drawing an end 15 connected to first side 4 and a second end 16 connected to the opposite side 4 of the device 1. These connections can be made in any suitable way, for example by welding, bolting or hooking. The bar 5 comprises a first end portion 17, a 5 second end portion 18 and an intermediate portion 19, each having a thickness Tb as indicated before. The first end portion 17 comprises the first end 15 and an opposite end 20. The second end portion 18 comprises the second end 16 and an opposite end 21. The intermediate portion 19 comprises two opposite ends 22, 23.
10 The driving surfaces 6 are provided by substantially U shaped profiles 24, extending over substantially the length L of the device 1. The actual driving surface 6 is preferably formed by substantially horizontal portions 25 thereof, a flange 26 being provided on either side thereof. The horizontal portions can be provided with draining provisions. These portions 15 can be made of e.g. perforated plate, tear plate, corrugated plate or the like. The flanges have a height Hf above the surface of the driving surfaces 6 which can be about comparable to the thickness Tb of the bar 5 as defined before, i.e. of the first, second and/or intermediate parts 17, 18, 19. Facing ends 20, 22 of the first end portion 17 and the intermediate portion 19 are connected to 20 opposite flanges 26 of one of the driving surfaces 6, preferably opposite each other. Similarly the facing ends 21, 23 of the second end portion 18 and the intermediate portion 19 are connected to the opposite flanges 26 of the other driving surface 6, again preferably opposite each other. The ends 15, 20, 22, 23, 21 and 16 may be positioned on a substantially straight line, such line 25 preferably extending substantially perpendicular to the sides 4. The portions 17, 18, 19 and the driving surfaces 6, especially the profiles 24, more specifically the flanges 26 can be connected in any suitable way, such as but not limited to welding, forging, bolting, riveting, gluing, hooking or combinations thereof. Preferably the cross bars 5 thus form part of a bottom 30 support structure.
8
Alternatively the profiles 25 can for example be connected directly to the sides 4, only the intermediate portions 19 being provided.
As can be seen in the drawings, each of the cross bars 5 or portions thereof has an upper surface 27 spaced above the driving surface 6, especially 5 above the surface thereof. The arrangement is preferably such that when a passenger car 12 is driven onto the driving surfaces 6, left wheels 12A on one and right wheels 12B in the other of the driving surface 6, there is clearance C between the bottom of the car 12 and the top surfaces of the first cross bars 5 and beams 15. Preferably the upper surface 27 is between about 110 and 140 10 mm above the surface 6, more preferably between about 110 and 130 mm, such as for example about 120 mm.
In advantageous embodiments a device 1 can have a maximum outside height H of 1.6 meter or less, preferably 1550 mm or less. A height Hi measured between the surface of the at least one driving surface 6 facing 15 inward and a side 28 of a second cross bar 8 facing the driving surface 6 can be less than 1.5 m, such as less than 1450 mm, preferably between 1380 and 1450 mm. The device 1 preferably has a maximum outside width W of between 2.3 and 2.5 m, more preferably between 2.4 and 2.5 m, for example about 2438 mm. The device 1 preferably has a frame opening width Wi of less than 2200 20 mm, more preferably between 2200 and 2000 mm, more preferably between 2100 and 2150 mm. Frame opening width Wi has to be understood as the minimal clearance between the sides 4, at least at the ends 9, 10 and preferably over the full length L of the device 1.
Devices 1 as here described are stackable on top of each other, 25 wherein two devices stacked on top of each other preferably have outer dimensions complying with ISO-R-688. Two devices 1 stacked, one on top 3 of the other can comply with comparable norms for freight container dimensions, especially sea freight containers, preferably standardised dimensions and strength and weight regulations, more preferably for 40 feet (12.19 m) 9 standardised freight containers. Alternatively they can comply with standardised 20 feet (6.1 m) freight containers.
In embodiments the sides 4 of the device 1 can be substantially open. The device 1 can comprise at two lower length beams 30 and two upper length 5 beams 31, one of each in each side 4 of the device 1. Support beams 32 can extend in each side 4 between the lower 30 and upper length beams 31. The lower length beams 30 can have an upper surface above a level defined by the at least one driving surface 6, especially the top side thereof. The or each driving surface 6 can be defined by a substantially plate shaped element 25 10 having a thickness T which is small compared to the height Hsb of at least the lower length beams 30 and is mounted near a lower side 33 of the lower length beams 30. Two substantially parallel driving surfaces 6 can be provided, one near each of the lower length beams 30, wherein each of the driving surfaces 6 can be provided, at least at a side facing away from the adjacent lower length 15 beam 30, with a flange 26 forming a guard rail extending over at least part of the length L of the relevant driving surface 6. Between these guard rails 26 one or more connecting elements 34 can provided, preferably connecting upper sides 35 of the guard rails 26 as shown in fig. 6, such that a wheel 12A, B of a passenger car 12 can drive on one of the driving surfaces 6 between the 20 relevant lower length beam 30 and the adjacent guard rail 26, prevented from rolling off side ways by at least the guard rail 26. The connecting elements 34 can for example be beams, such as schematically shown in fig. 4 and 5, or near the two opposite ends 9, 10 the elements 34 can be plate shaped, closing off a gap between the driving surfaces 6 near said ends, and providing space 25 between the driving surfaces 6, open towards a lower device 1. Below said element 34 extra height for a device there below can be created
Preferably the driving surfaces 6, as described before and as shown in fig. 1A, are positioned such that a second guard rail or flange 26 is provided at a side of the surface 6 facing outward, spaced from the adjacent side 4 over 30 such distance that a side of a car 12 on the driving surfaces cannot touch the 10 side 4 because the wheels will be prevented from approaching the side 4 further than the relevant guard rail 26.
At each end 9, 10 end posts 36 can be provided between a relevant lower 30 and upper length beam 31, preferably substantially vertically when 5 the device 1 is placed on a flat horizontal floor. At each corner of the device 1 a standardised corner fitting 37 can be provided. The corner fittings 37 can be connected to and can form the connecting between a relevant lower or upper length beam 30, 31 respectively and a post 36. The corner fittings are preferably permanently connected to the posts 36 and length beams 30, 31, for 10 example by welding or forging. Corner fittings 37 are preferably according to international standards for such fittings for freight containers, such as for example defined in ISO R-1161 or similar standards. The corner fittings 37 are preferably provided such that two devices 1 can be interconnected by or through such fittings 37 and/or such that two stacked devices 1, as for example 15 shown in fig. 1, can be picked up and handled as a standardised freight container, such as a standard ISO R-668 freight container and can be handled by equipment suitable for such freight containers, such as container cranes, and/or can be shipped in transport devices such as container ships adapted for such standard freight containers.
20 As can be seen by way of example in fig. 7 a second cross bar 8 in or at least at an end 9, 10 can be provided between sides 4, especially between ends of the upper length beams 31 or upper corner fittings 37, such that said second cross bar 8 can be removed temporarily from the said end, for example by completely removing the cross bar 8, or by releasing one end 38 of the cross 25 bar 8 from the relevant beam 31 or fitting 37, and swivelling the bar around the opposite end 39 of said bar 8. By at least partly removing the upper second cross bar 8 from the relevant end 9, 10 from above the driving surface 6, the height Hi can be increased above the driving surface 6, to at least about the full height H of the device minus the thickness T of the driving surface or 30 surfaces 6, or even further. By increasing the height Hi cars 12 can be driven 11 onto the or each driving surface which have a height He larger than the height Hi between the surface of the driving surface(s) 6 and the lower side of the relevant second cross bar 8 facing the driving surface(s) 6.
In embodiments all second cross bars 15 can be provided such that 5 they can be removed or at least displaced for increasing the passing height Hi between the sides 4. In preferred embodiments the top 3 of the device 1 is substantially open, especially between the sides 4, such as between the upper length beams 31, such that the roof 40 of a car 12 standing on the driving surface or surfaces 6 can extend between the upper length beams 31 and/or 10 second cross bears 8, as is schematically shown in fig. IB and 3. This extra height provides for sufficient height to fit most existing passenger cars 12 in a device 1 according to the description.
A closing element 42 could be provided on the top side 2, level with or on top of the top side 43 of the upper length beams 31. The element 42 can 15 for example be a plate, such as a metal or, preferably, plastic plate, for example a transparent or semi transparent plate such as acrylic plate, or an opaque plate, or combinations thereof. The thickness of the element 42 is preferably small, for example comparable to or smaller than the thickness T of the driving surfaces 6. This can have the advantage that debris falling from a 20 device 1 or container above the relevant device 1 shall not fall on top of cars 12 in the lower device 1, whereas the element 42 does not prevent the devices 1 from being stacked in the desired formation. Preferably the element 42 or elements 42 do not extend above the corner fittings 37 at the top 2 of the device 1.
25 At least at one longitudinal end 9 or 10 and preferable at both opposite longitudinal ends 9, 10 of the device 1 a third cross bar 43 can be provided, spaced apart from the top 3 and bottom 2 of the device 1, extending between opposite sides 4 of the device 1 and at least partly detachable from the device 1, preferably removable and/or pivotally mounted to one or both sides 4 30 of the device 1. Such third bar 43 can prevent cars 12 from driving off the 12 driving surface(s) 6 unintended, whereas these can also be used for locking in the cars 12 inside the device 1, for example by providing locking means locking the bar 43 in place, which can for example only be opened by using an appropriate key, code or other dedicated unlocking device. Alternatively or 5 additionally a lock beam 44 can be provided at an end 9, 10 of at least one and preferably all of the driving surfaces, extending above the surface thereof, as schematically shown in fig. 8. These beams 44 can for example extend between guard rails or flanges 26 and can be partly and/or entirely pivotally or detachably mounted, similar to the cross bars discussed before. These lock 10 beams 44 can again prevent cars 12 from driving on or off the driving surface(s) 6 unintendedly. Similar lock beams 44 can be provided in other positions too or alternatively, above the surface 6 between guide rails and/or flanges 26 and/or between guide rail or flange 26 and lower length beam 30.
Preferably in embodiments of a device 1 two parallel drive surfaces 6 15 are provided, extending in length direction of the device 1, spaced apart in the width direction of the device. Between facing sides of the driving surfaces a distance can be provided of between 1500 and 900 mm, preferably between 1150 and 900 mm, especially between 1100 and 1000 mm. Each driving surface 6 can have a width Wdr, for example a width Wdr between 300 and 20 500 mm, preferably about 400 mm, measured between longitudinal sides or flanges or guide rails 26 thereof, or between a side, flange or guide rail and an adjacent lower length beam 30 to which the driving surface 6 is attached. Such arrangement can easily accommodate the wheels of passenger cars.
For the present application it has been recognised that the majority 25 of cars, especially passenger cars have a maximum height He of 1.5 m or less, of which a significant number has a height He between 1.4 and 1.5 m. By providing a device 1 according the invention it is possible to drive all of these cars 12 in such device and store two layers of such cars in the space of a standard 20 or 40 foot freight container, by stacking two such devices 1 as 30 described. Each device 1 can be placed on the ground first, for driving in a car 13 or cars, and then be placed on top of another such device, a container, a track or other suitable position. Using a device 1 or stacked devices 1 it is possible to ship cars to almost any port or harbour, even smaller ports or harbours where the large Ro-Ro ships cannot or will not land, for example for reasons of 5 limited volumes, insufficient capacity of the port or harbour or waterways leading to and from it, insufficient landing area or other such reasons. By providing devices 1 that can be handled as standard freight containers, such objections and restrictions can easily be overcome. The devices 1 can easily be handled, by standard container cranes, container loading and unloading 10 vehicles and even by fork lift trucks and the like. The devices containing one or more cars 12 can be loaded onto a truck or rail car for further transport, similar to standard freight containers.
Fig. 9 shows three cars 12 driven onto driving surfaces 6 of a device 1, behind each other, such that these three cars 12 can be handled, stored and 15 shipped simultaneously. Loading and unloading of the cars can therefore be done faster and possibly safer than with Ro-Ro ships.
In the embodiment of fig. 10-12 the same elements as discussed in respect to for example fig. 4-6 are provided with the same reference signs. This embodiment shall only be discussed as far as necessary to understand the 20 difference with the embodiments discussed before, as for example shown in fig.
4-6.
In fig. 11 a side view is shown, in fig. 12 a cross section through a vertical mid plane. In this embodiment the vertical posts 32A and posts 32B extending at an angle a relative to the vertical posts 32A are placed such that 25 cars 12 can be placed such that for most models of cars at least a driver side front door can be opened when in the device 1. In the embodiment shown for vertical posts 32A are provided, placed at regular intervals, wherein each angled post 32B extends at a relatively acute angle a, such that at an upper end of the vertical post 32A they are joined to the post 32A, whereas at the 30 opposite lower ends 3211 they are spaced apart from the vertical post as well as 14 from each other, for example spaced relative to each other over a distance Lp which is about half the distance Lv between two adjacent vertical posts 32A. Surprisingly this will still lead to a sufficiently strong device 1 and provide for ample space for opening car doors.
5 In this embodiment at opposite longitudinal ends of the device 1 extensions 100 are provided, which can be removably attached to the device 1. At each end in this embodiment two extensions are provided, one at each side, for protecting a nose or rear of a car extending partly from the device. The extensions 100 may be pivotably connected, or be detachable. The overall 10 extended length of the device 1 in this embodiment will be the length L, augmented with twice the length Lex of the extension s. The length Lex of the extensions 100 is preferably such that the overall length is substantially equal to the length of a standard extended length container as known in the art.
Extensions 100 can be left out in the embodiment, of fig. 10-12, 15 and/or could also be sued with a device as shown in the other figures and/or as described in the description.
In fig. 13 a further embodiment of a device 1 is shown, in side view, similar to the devices described previously, wherein only vertical beams 32 are provided in the sides of the device 1. In this embodiment one vertical beam 32 20 is provided in the longitudinal middle of the device l, spaced apart from both longitudinal ends of the device 1 over the same distance. At both longitudinal ends a further beam or post 36 is provided. Moreover in between the beam or post 36 at the end and the beam 32 in the middle a still further vertical beam 32A or post is provided, relatively close to the beam or post 36 at the end.
25 Between the post or beam 36 at the end and the adjacent beam or post 32A, the top and bottom a substantially square open space 50 can be enclosed. Each corner 51 of said square space is reinforced by reinforcements 52, for example by welding or otherwise mounting a plate in said corner, connected to the relevant beam or post 36, 32A and the relevant upper or lower longitudinal 30 beam 30, 31. The plates can for example be substantially isosceles triangular 15 with legs along the beam or post 36, 32A and the beams 30, 31 which have a length such that the plates 52 are spaced apart over a distance which can for example be about half the length of the sides of the square space 50.
In an exemplary embodiment of a device having the outer sizes as 5 discussed before, the sides of the square space 50 can for example be between 80 and 180 cm, for example between 80 and 160 cm, such as for example about 120 cm. The sides of the reinforcing plates can for example be between 20 and 50 cm, for example between 25 and 40 cm, such as for example 30 cm.
As can be seen in fig. 14 about three cars of standard midsize range 10 can fit behind each other in the device 1. Of the first and last car 12 a driver side door can easily be opened either through said space 50 or at the opposite side of the beam 32A, such that a driver can easily get in and out of the car 12 through the side of the device 1.
With a device 1 or a series of devices 1 a method for packaging 15 passenger cars for transport can be performed, wherein at least one passenger car 12 is driven onto at least one and preferably onto two adjacent driving surfaces 6, over part of at least one cross bar 5 or a portion 19 thereof, between sides 4 of a transport device 1. The cars 12 are driven through an in-ride opening at an end 9, 10 of the device. Before driving the car or cars 12 onto 20 said at least one driving surface 6 at least one cross bar 15, 43, 44 is at least partly removed from the in-ride opening, temporarily increasing the height of the in-ride opening. Said cross bar 15, 43, 44 is replaced between the sides 4 after the car or cars are driven onto or off the transport device 1. Cars 12 can be positioned in the device 1 such that at least part of at least one car 12 on the 25 or each driving surface 6 extends between the sides 4 and between at least two second cross bars 15. At least two devices 1 comprising cars 12 can be stacked on top of each other, forming an ISO freight container sized unit 100 having ISO corner fittings 37 for freight containers. The unit 100 can then be handled as if it were a freight container, especially an ISO R-668 freight container, 30 such as a 20 or 40 feet container.
16
The present invention is by no means limited to the embodiments specifically shown and discussed here above. These are only shown by way of examples. Many adaptations and modifications are possible within the scope of the invention, especially as defined by the appending claims.
5 In the present disclosure all combinations of parts of the disclosed embodiments are also considered to have been disclosed, for example combinations of different configurations of sides and cross bars, driving surfaces and flanges or guard rails. In the embodiments shown in the drawings sides 4 and bottom 2 are substantially open, as are the ends 9, 10 and the top 10 3. One or more of the sides 4, top 3, bottom 2 and/or ends 9, 10 can also be covered by covers such as plates or cloth, for closing them off against entry of debris. Preferably such covers are provided on an outer side of the relevant part of the device, preferably removably and sufficiently thin to keep the outer dimensions of the device 1 such that two of such devices stacked form a unit 15 100 having standard freight container size and dimensions. Lower first cross bars 5 can be integrated in a bottom frame construction, such that they are not separate entities, as long as the bottom frame construction complies with requirements for support of the car. Preferably the construction also complies with requirements of standards for freight containers concerning load bearing 20 capacities of the device when stacked with other devices and/or other such freight containers. Different parts of the presently disclosed devices can also be replaced with equivalent parts.
These and similar amendments are considered also to have been disclosed in the present description and drawings.
25
Claims (16)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2009244A NL2009244C2 (en) | 2012-07-27 | 2012-07-27 | Passenger car transport device and method for packaging cars for transport. |
PCT/NL2013/050564 WO2014017917A2 (en) | 2012-07-27 | 2013-07-26 | Passenger car transport device and method for packaging cars for transport |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2009244A NL2009244C2 (en) | 2012-07-27 | 2012-07-27 | Passenger car transport device and method for packaging cars for transport. |
NL2009244 | 2012-07-27 |
Publications (1)
Publication Number | Publication Date |
---|---|
NL2009244C2 true NL2009244C2 (en) | 2014-01-28 |
Family
ID=47682007
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
NL2009244A NL2009244C2 (en) | 2012-07-27 | 2012-07-27 | Passenger car transport device and method for packaging cars for transport. |
Country Status (1)
Country | Link |
---|---|
NL (1) | NL2009244C2 (en) |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0297081A2 (en) * | 1987-06-23 | 1988-12-28 | Austria Metall Aktiengesellschaft | Loading and transport device for cars |
WO1990001007A1 (en) * | 1988-07-20 | 1990-02-08 | Shigenobu Furukawa | Container |
EP0808780A1 (en) * | 1996-05-21 | 1997-11-26 | Luigi Oglio | Containing and transporting device with internal lift, particularly for shipment of motor cars |
-
2012
- 2012-07-27 NL NL2009244A patent/NL2009244C2/en active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0297081A2 (en) * | 1987-06-23 | 1988-12-28 | Austria Metall Aktiengesellschaft | Loading and transport device for cars |
WO1990001007A1 (en) * | 1988-07-20 | 1990-02-08 | Shigenobu Furukawa | Container |
EP0808780A1 (en) * | 1996-05-21 | 1997-11-26 | Luigi Oglio | Containing and transporting device with internal lift, particularly for shipment of motor cars |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP3065595B1 (en) | A container roll out warehousing system, method of storing cargo | |
NL8101512A (en) | SET COMPONENTS FOR TRANSPORTING CARS IN A CONTAINER, CONTAINER FOR THIS TRANSPORTATION AND METHOD FOR LOADING THE CARS. | |
US7497347B2 (en) | Storage unit for being portable, towable, liftable, rackable, and weatherproof | |
US20140133952A1 (en) | Methods and systems for transporting loads | |
JP5909496B2 (en) | Transportation equipment and means of transportation by it | |
US8356962B2 (en) | Logistics panel and containers | |
US20220234817A1 (en) | Vehicle Stacking Crate | |
US4944232A (en) | Dual-purpose depressed center railway flat car | |
US20080101882A1 (en) | Boat and automobile storage apparatus | |
US5110242A (en) | Apparatus for storing automobiles inside maritime containers | |
US7621578B2 (en) | Open-bed utility trailer convertible to a closed utility trailer by the addition of a closed cargo box | |
WO2014017917A2 (en) | Passenger car transport device and method for packaging cars for transport | |
US5599058A (en) | Three-sided cargo carrier | |
NL2009244C2 (en) | Passenger car transport device and method for packaging cars for transport. | |
NL2009309C2 (en) | Passenger car transport device and method for packaging cars for transport. | |
US5690453A (en) | Method and apparatus for transporting cars | |
DE19503557C2 (en) | Container system, in particular for luggage transportation | |
US20090127256A1 (en) | Storage unit for being portable, towable, liftable, rackable, and weatherproof | |
KR101301957B1 (en) | A Method and Apparatus of Mass Transportation of Car by Container Ship | |
JP4502279B2 (en) | Motorcycle container | |
CN109867048A (en) | Light metal transport container | |
RU26309U1 (en) | INDOOR SPECIALIZED WAGON | |
RU2347699C2 (en) | Flatcar to carry cars, piece and package cargoes | |
AU2021103097A4 (en) | A covered walkway | |
CN214523543U (en) | Log transport vechicle |