FR2898720A1 - High-security locking system for cargo containers in ports comprises two hooks mounted on cross-bar, bolts fitting into strike of hook and being held in place by collar inside spacer sleeve - Google Patents

Abstract

The high-security locking system for cargo containers in ports comprises two hooks mounted on a cross-bar (7). Bolts (8) fit into the strike (13) of the hook and are held in place by a collar (11) inside a spacer sleeve (12).

Description

The object of the present invention is as an industrial product

  again, a high-security mechanical seal that condemns the opening of cremone locking systems, doors of shipping containers, trucks or trailers by the restraint at the spacing of the cremone bars, during an attempt to open. It settles on a closed container, without mounting tools. It delays, because of its design and the quality of the steel used, the attempts of fraudulent intrusions. For opening it requires its destruction by means of a powerful cutting tool such as a lapidary. After destruction, it is no longer reusable in its entirety. It requires a visual inspection to determine whether there has been tampering with the seal revealing fraud. High security mechanical seal systems, found in almost all applications trapping marine container closing cremones, are designed with a thin metal U. They constitute a unique piece of metal surrounding each espagnolette. The thickness of the U is limited by the remaining space between the espagnolette and the door. They are asymmetrical once laid. They are perforated by multiple holes or notches, for the different dimensions of centers of cremones. The sealing part of the seal is an axis, a bolt or a suitable device. The seal traps the cremones with the least possible game. The possibility of rotation of the handles will allow a slight opening of the doors, up to the game between the seal and the cremone bars. The seal (1), object of the present invention, is remarkable in that it is posed symmetrically on the espagnolettes (2) and (3), the hook (6) constituting part of the imprisonment of the cremone bars (2) and (3) is made of several pieces of steel, in different thicknesses. This makes it possible to manage the time required for the opening by destruction, depending on the thickness chosen. Three different types of parts make up the elements to be assembled to constitute the seal (1). The two hooks (6) are fixed on the crosspiece (7) by four axes (8) distributed in pairs on each hook (6). The conviction is made following the assembly of these different parts. The two hooks (6) are to be inserted between the espagnolettes (2) and (3) and the doors (4) and (5) by presenting their holes (10) perpendicular to the doors (4) and (5). The crossbar (7) is to be flat and centered on the espagnolettes (2) and (3) by matching the holes (9) of the crossbar (7) and the holes (10) of the hooks (6). The four axes (8) are to be inserted in the holes (9) of the crossbar (7) and the holes (10) of the hooks (6). An axial pressure on the four axes (8) is to be made to immobilize them by clipping, inside the hooks (6). The clipping of the shafts (8) in the hooks (6) is an irreversible operation. The seal (1), object of the present invention, is remarkable in that it comprises: The hook (6) is an assembly composed of four different pieces of steel. The two rods (11) allow retention by clipping. The two spacers (12) keep the two rods (11) at a precise distance. The striker (13) allows to receive freely in its two countersinks (14) the two rods (11) and the two spacers (12). The yoke (15) is welded to the striker (13) and closes the two countersinks (14) to hold the two struts (12) and the two rods (11) in the countersink (14) of the striker (13). The two holes (10) are intended to receive the two axes (8) during the condemnation of the seal (1) and provide anti-rotation relative to the crossbar (7). The two rods (11) are intended to retain by clipping the two axes (8) during the condemnation of the seal (1). The yoke (15) is intended 3 to be placed between the cremone bars (2) and (3) and the doors (4) and (5) during the laying of the seal (1), to prevent its face (16). ) tearing off the seal (1). The striker (13) is intended to prohibit by its side (17) the lateral displacement of the seal (1) when it is laid. The hooks (6) can be mounted indifferently with the yoke (15) towards the center or to the outside of the crossbar (7). The hooks (6) will be fixed on the crossbar (7) by pins (8).

  The cylindrical axis (8) is made of steel with high mechanical strength. It is the main link between the crossbar (7) and the two hooks (6) as the seal (1) is placed. The groove (18) serves as a receptacle for the ring (11) when clipping the shaft (8). The circular stop (19) serves to retain the cross member (7). Its tensile strength allows it to maintain the face (20) of the crossbar (7) against the face (21) of the hook (6) during an attempt to tear the seal (1), which makes them inaccessible on their cylindrical part (23). Its shear strength allows anti-rotation between the holes (10) of the strike (13) of the hook (6) and the holes (9) of the cross member (7). The crossbar (7) is a steel parallelepiped whose thickness is chosen as a function of time that is considered necessary for the destruction of the seal (1) by cutting lapidary. The different thicknesses, widths and lengths of the beam (7) do not change the dimensions of the shaft (8) and the hook (6). It bears the sequential number of the seal (1). It is perforated with a double row of holes (9) distributed symmetrically. A choice of four holes (9) corresponding to the different possible distances allows to receive four axes (8) retaining the crossbar (7) on the hooks (6) during the installation of the seal (1). The symmetrical installation of the crossbar (7) on the hooks (6) makes it possible to halve the length of the - 4 lever arms, represented by the remaining length between the hooks (6) and the two bar ends (24) ( 7). They are divided by two on each side of the crossbar (7). The counterbore (22) receives. the circular stop (19) of the axis (8). The holes (9) allow, in groups of two on each side, the anti-rotation of the hooks (6). The crossbar (7) is the fixed link between the two hooks (6), it maintains their spacing distance. An embodiment of the invention is described below by way of indication and in no way limitative with reference to the accompanying drawings. Figure 1 is a front view of the high security seal (1) trapping the espagnolettes (2) and (3). Figure 2 is a top view of the high security seal (1) trapping the espagnolettes (2) and (3). Figure 3 is a back view of the high security seal (1) in the locked position. The cremones have been hidden. Figure 4 is an exploded back view of the high security seal (1). Figure 5 is a cross-sectional view of a hook (6) mounted on the cross-member (n) and connected by the axis (8), and Figure 6 is an exploded view of the hook (6). view of the axis (8).

It is understood that the present invention is not limited to the embodiment described and shown which is an example to which many modifications can be made without departing from the present invention.

Claims (11)

  1) Locking seal, characterized by: Four steel shafts (8) which ensures the safety of the condemnation by their tensile and shearing strengths, while maintaining the face (20) of the crossmember (7) and the faces (21) of the hooks (6). Four rods (11) of spring steel freely mounted inside the counterbores (14) of the strike (13) of the hook (6), which ensure the retention of the four axes (8) in the clipped position. Four steel spacers (12) freely mounted within the counterbores (14) of the keeper (13) of the hook (6), which hold the four rods (11) in their position. Two hooks (6) which retain the spacing of the cremone bars (2) and (3), during an attempt to open the doors (4) and (5). A crossbar (7) which provides a fixed connection between the hooks (6) while maintaining their spacing distance.   2) Seal according to claim 1, characterized in that the hooks (6) can be mounted indifferently with the yoke (15) towards the center or to the outside of the crossbar (7). 25   3) Seal according to claim 1, characterized in that the hooks (6) can be presented in a choice of different distances corresponding to those of the holes (9) of the crossbar (7) depending on the spacing of the bars of cremones (2) and (3). 30   4) Seal according to claim 3, characterized in that the hooks (6) will be fixed on the crossbar (7) by pins (8).   5) Seal according to claim 4, characterized in that the axes (8) are at least two par-6-hook number (6) to ensure the anti-rotation of the hook (6) relative to the crossbar ( 7).   6. A seal according to claim 4, characterized in that the four axes (8) are inaccessible on their cylindrical portion (23).   7) seal according to claim 1, characterized in that the crossbar (7) can be mounted symmetrically on the hooks (6) to limit the length of the lever arm (24) by two. 10   8) seal according to claim 1, characterized in that the thickness of the crossbar (7) can vary without causing changes in dimensions of the axes (8) and the hooks (6).   9) Seal according to claim 1, characterized in that the width of the crossbar (7) can vary without causing changes in dimensions of the axes (8) and the hooks (6).   10) seal according to claim 1, characterized in that the crossbar (7) is a parallelepiped. 20   11) Seal according to claim 1, characterized in that the cross member (7) is perforated symmetrically in its median axes on its face (20)