THIS invention relates to a padlock.
A known padlock marketed under the name ENVOSEAL has a lock body of multi-part, moulded plastics construction and a metal hasp which is generally U-shaped. A first leg of the hasp is held captive in the lock body in such a manner that the hasp can pivot and slide relative to the lock body between respective open and closed positions. When the hasp is in a closed position the end of its second leg locates in an opening in the lock body and a transverse hole in the first leg aligns with a transverse hole in the lock body. A frangible plastic seal is clipped to the lock body such that a part of the seal locates in the aligned holes. This prevents pivotal movement of the hasp from the closed to the open position until such time as the seal is broken and removed. Breakage of the seal Indicates that the lock has been tampered with.
Padlocks of this kind are used in many different applications where a tamper-evident seal is required. One example is in airline trolleys used to store duty free goods, alcoholic beverages and the like. Typically, the padlock in such an application is used to lock the door or drawer of the trolley in a closed position.
A drawback of the known padlock described above is that it is expensive to manufacture, partly because individually moulded plastic components have to be assembled about the metal hasp and then connected to one another to hold the hasp leg captive. Another drawback is that the design of the padlock dictates that it must have a fairly substantial thickness. For economy of space and packing airline trolleys have a recess to receive the installed lock but this is often too shallow to accommodate the known lock fully. As a result the lock projects from the trolley and can either present an obstruction or itself be impacted on and possibly damaged.
According to the invention there is provided a padlock comprising:
Preferably the lock body is of one-piece, moulded plastics construction nad has a thickness of 8 mm or less. The hasp may be attached to the lock body by a cord or the like. Alterantively it may be attached to the lock body, typically by means of a rivet, in a manner allowing sliding and pivotal movement of the hasp relative to the lock body.
Other features of the padlock of the invention are set forth in the accompanying description and the appended claims.
According to another aspect of the invention there is provided a padlock combination comprising the padlock summarised above and a breakable seal having an insertion portion which can be engaged, by movement of the seal through the second end of the passage, with the end of the first leg of the hasp when this end is located in the passage, thereby to lock the hasp relative to the lock body.
Other features of the padlock combination are also set forth in the accompanying description and the appended claims.
The invention will now be described in more detail, by way of example only, with reference to the accompanying drawings in which:
The lock body 14 is a one-piece plastics moulding. It has a passage 22 extending through it from one open end 23 to an opposite open end 25. There is a shoulder 24 adjacent the mouth of the passage at the open end 25, which opens into a generally rectangular recess 27. The lock body 14 also has a blind opening 26 spaced from and parallel to the passage. Relatively large and relatively small holes 28 and 30 respectively extend tranversely through the lock body
The hasp 16 is of 2 mm thick flat mild steel and has the shape seen in
The seal 20, which, together with the padlock 10, makes up the padlock combination 12 of the invention, is made as a one-piece plastics moulding. It includes a tab portion 20.1 from which an insertion portion 20.2 projects. The insertion portion has a central stem 20.3 and resilient arms 20.4 which project rearwardly from the end of the stem.
In order to close the padlock, the hasp 16 is aligned with the lock body 14 as shown in
In order to seal the lock the seal 20 is positioned in the recess 27 and is slid, in direction opposite to that in which the hasp is inserted, into the opposite end 25 of the passage 22. When the arms 20.4 of the insertion portion 20.2 encounter the tabs 38 they are inwardly deflected. When the insertion portion is fully inserted the arms move past the tabs and thereafter, with the insertion portion fully located in the cavity 36, spring back to locate behind the tabs, i.e. the extremities of the legs 20.4 of the insertion portion 20.2 locate behind the tabs 38.
The insertion portion is accordingly clipped into the cavity 36 in the passage 22, with the tab portion 20.1 lying flat in the recess 27. It will be understood that the seal cannot be withdrawn by a sliding action, because this would merely draw the extremities of the legs 20.4 against the inner inclined surfaces 38.2 of the tabs 38. Thus, with the insertion portion 20.2 of the seal clipped into the cavity 36 inside the passage 22, the hasp is effectively locked to the lock body. In order to open the padlock, it is necessary to break the seal 20.
This is achieved by bending the tab 20.1 in a direction out of the recess 27, as indicated in
Referring to
In an application of the padlock and padlock combination to, for instance, an airline trolley, the hasp will be arranged in the normal way to pass through openings in the components of the trolley which are to be locked to one another, eg the frame of the trolley and a door or drawer. It will also be understood that in such applications, a visual inspection of the seal to ensure that it is not broken provides an assurance that the trolley has not been opened without authorisation prior to being brought onto the aircraft.
The large hole 28 provides a suspension point at which the padlock, once unlocked, can be suspended from a hook or the like for re-use at a later stage with a new seal 20.
The hasp 16 is formed with a small hole 50. This hole and the small hole 30 in the lock body provide attachment points for the ends of a thin cord 52 which serves to attach the hasp to the lock body, to prevent inadvertant loss of the hasp.
FIGS. 7 to 9 illustrate a second embodiment of the invention which does away with the need for a cord 52 to attach the hasp to the lock body. In these Figures, components corresponding to those illustrated in FIGS. 1 to 6 are indicated with the same reference numerals.
In this embodiment, the hasp 16 is permanently attached, in a manner allowing both sliding and pivotal movement, to the lock body 14. This is achieved by means of a rivet 60 which passes through the lock body, in the passage 22, and through an elongate slot 62 in the end 32.1 of the leg 32 of the hasp. It will also be noted that the side 64 of the lock body is laterally extended and provides a shoulder 66 adjacent the rivet 60, and that there is only a single shoulder 32.2.
It will also be noted that in the locked position, the rivet 60 is situated at the outer end of the slot 62.
In order to open the padlock, the seal 20 is broken by bending the tab portion 20.1 in a direction out of the recess. Once the tab portion has been broken away from the insertion portion, the hasp can be slid outwardly as shown in full lines in
In order to re-lock the padlock, the opposite procedure is followed, i.e. the hasp is pivoted to the full line position in
In both embodiments, the inclination of the tabs 38 is a security feature. The tabs and the upstanding wall 20.6 of the seal 20 are so designed that the tabs extend into the recess as will be apparent from
Number | Date | Country | Kind |
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2002/6585 | Aug 2002 | ZA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB03/02821 | 7/16/2003 | WO | 12/28/2004 |