The present invention relates to components of a large-scale rigid folding container, and in particular, to components of a folding container including a hinge for the folding container.
In the field of containers, folding containers are widely applied because of their small size after folding, the low transportation cost of the empty containers and their usefulness when loading and unloading cargo.
As early as the mid-1970's, folding containers have been designed, researched and applied. Temporal folding containers are reconstructed from dry freight containers, and, when loaded, the folding containers are used as a complete dry freight container; when unloaded, the roof panel is removed, the two side walls are folded inward respectively, on top of which the roof is laid, and then the two end walls are folded inward. Such temporal folding containers save unloading transportation costs, but due to complicated operation, such containers were not popular until the later 1970's when the hinge for folding containers was successfully launched.
As shown in
As shown in
The end wall functions to pile, lift and form load space together with the base and prevent cargos from longitudinal sliding. A common end wall, as shown in
Against the deficiency of the prior art, the object of the present invention is to provide a hinge for a folding container that satisfies folding corner posts of the folding container and enhances the transverse rigidity thereof.
In order to realize the above objective, the present invention applies the following technical solution:
A hinge for the folding container comprises an inner hinge, an outer hinge and a locking device for locking the inner and the outer hinge; wherein, the inner hinge and the outer hinge are pivotally connected by a pivot pin, the outer hinge comprises at least two outer hinge plates provided in parallel, and the inner hinge comprises at least two inner hinge plates provided in parallel.
The hinge for the folding container as mentioned above, wherein, a hinge top plate is provided on the top of the outer hinge, and two slots for housing the two inner hinge plates are provided in parallel on the hinge top plate along the breadth direction of the inside and outside of the container.
The hinge for the folding container as mentioned above, wherein, the hinge top plate is in the shape of an upside-down “L”.
The hinge for the folding container as mentioned above, wherein, the width of the slots inside the container matches the width of an ISO standard twist lock for containers; or the width of the slots outside the container matches the width of an ISO standard twist lock for containers; or the width of the slots inside and outside the container all match the width of an ISO standard twist lock for containers.
The hinge for the folding container as mentioned above, wherein, the top or bottom of the two inner hinge plates are connected by a boss or a connection plate as a whole, and so that an integral structure of the two inner hinge plates is formed.
The hinge for the folding container as mentioned above, wherein, the top and bottom of the two inner hinge plates are all connected by a boss or a connection plate as a whole, and so that an integral structure of the two inner hinge plates is formed.
The hinge for the folding container as mentioned above, wherein, a reinforcement plate is provided between the two outer hinge plates, the top of the reinforcement plate is fixed with the bottom surface of the outer hinge top plate and located between the two slots.
The hinge for the folding container as mentioned above, wherein, the locking device is a taper pin, and corresponding taper holes are opened on the inner hinge plates and the outer hinge plates; when the inner hinge plates are erected against the outer hinge, the taper pin is inserted into the taper holes to lock.
The hinge for the folding container as mentioned above, wherein, the locking device is a square pin, and corresponding square slots are opened at the rear end of the inner hinge plates and the outer hinge plates; when the inner hinge plates are erected against the outer hinge, the square pin is inserted into the square slots to lock.
Compared with the prior art, without changing the standard operating hole, the hinge for a folding container disclosed by the present invention can widen the transverse width of the inner hinge, so that the rigidity of the inner hinge is effectively enhanced. Therefore, the hinge according to the present invention can be applied to any types of folding container, especially folding containers mounted with independent corner posts.
In order to further illustrate the technical means and effect of the present invention for realizing the predefined objective, the present invention is detailed combining with the following figures. The object, features and specifications of the present invention can be understood deeply and particularly hereafter. However, the figures are just for reference and illustration, not to limit the present invention.
The present invention is further detailed in the following figures and embodiments.
As shown in
The thickness of one inner hinge plate, according to the present embodiment, is 60 mm. The corresponding distance between the two outer hinge plates located aside thereof should be wider than 60 mm, in order to ensure that the inner hinge plate can pivot between the outer hinge plates and that the inner hinge plate can be inserted into the hole on the hinge top plate at the same time, wherein the width of the hole matches the housing requirement of an ISO standard twist lock for containers. However, the thickness of an additional inner hinge plate is variable. The distance between the two outer hinge plates located aside thereof may match the thickness and the width of the holes on the hinge top plate for housing the two inner hinge plates may also match the thickness. Furthermore, the two inner hinges can be connected by a boss or a connection plate, so that the inner hinge is formed as a whole.
When the hinge according to the present embodiment is installed in a folding container, the outer hinge is welded to the bottom side rails along two sides of the base of the folding container, and the top of the two inner hinge plates is welded to the bottom of a corner post along two sides of the end wall. There are two modes for welding the two inner hinge plates to the bottom of the corner post: (1) after connecting them to each other, the top of the two inner hinge plates are welded to the bottom of the corner post; or (2) the two inner hinge plates are welded to the bottom of the corner post (reference to
As shown in
The hinge according to the present embodiment has two housing slots 321, and the width of at least one of the two housing slots satisfies the requirements of installing the ISO standard twist lock for containers.
The above modification for the structure of the inner hinge may be embodied as the top of the two inner hinge plates are connected as a whole, so that an integral structure of the inner hinge is also formed. While for the structure of the inner hinge where the top of the two inner hinge plates are connected as a whole, the corresponding outer hinge is composed of two outer hinge plates in parallel with a certain distance between them. For housing the two inner hinge plates whose top are connected as a whole and bottom are separated, two housing slots are opened on a hinge top plate along the breadth direction of the container for housing the two inner hinge plates, wherein the hinge top plate is on the top of the outer hinge. In order to achieve such an enhancement according to the connection mode of the two inner hinges, a reinforcement plate matching the two parallel outer hinge plates can be provided therebetween.
Additionally, the above modification for the structure of the inner hinge may be embodied as the top and the bottom of the two inner hinge plates are all connected as a whole, so that an integral structure of the inner hinge is also formed. The corresponding outer hinge, the top plate thereof and the setting of the reinforcement plate will not be detailed herein any more.
According to common knowledge, the present invention can be realized by other embodiments that fall within the spirit and scope of the principles of the disclosure. Therefore, the above illustrations should not limit the implementations of the present invention. Numerous other modifications and embodiments can be devised in the art that fall within the spirit and scope of the claims, all of which are included by the present invention.
Number | Date | Country | Kind |
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2006 1 0061968 | Aug 2006 | CN | national |
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2034283 | Jun 1980 | GB |
2073149 | Oct 1981 | GB |
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07257569 | Oct 1995 | JP |
Number | Date | Country | |
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20080244864 A1 | Oct 2008 | US |