HINGED LID CONTAINER WITH LATCHES FOR OPEN AND CLOSED POSITIONS
Technical Field The present invention relates lo containers formed from a synthetic plastics material and being of the type comprising a body having a rectangular base and four side walls, and a hinged lid. Such containers arc commonly called tote boxes. More particularly the invention relates to constructions of tote boxes and like containers in which improved latching means are provided lo retain the lids in the open and/or the closed position relative lo the body of the container. Background Art
Tote boxes are widely used in industry for the transport of goods, as an example they are used in the motor vehicle assembly industry for the delivery of small component parts to assembly plants. An early publication in the field of the present invention is US patent specification 3,463.345 to Brockenstette. This specification describes a tote box having a pair of hinged lids that have interdigitating fingers on their respective free edges that mesh together as the lids are closed . The tote boxes are so designed that they are capable of being nested with like boxes when the lids are swung open and being slacked with like boxes when the lids are closed. In this arrangement the lids are held in the closed position by gravity and no integral or attached mechanism is provided to latch or otherwise secure the lids in the closed position. This means that if a container is knocked over the contents can be lost or at least scattered.
The desirability of providing some form of locking or latching mechanism has been recognised by in the field and US patent specifications 4.G20.644. 4.705,480 and 5.051,725 all describe tote boxes with a form of latching mechanism for holding the lid or lids in a closed condition. It has been found by the present inventors that all of the existing latching mechanisms lor tote boxes are deficient in one way or another. In many cases it has been found that if the latching mechanism is sufficiently stiff to prevent the tote box bursting open if the box is dropped then it is too stiff to be readily opened by a user of the box. It has also been found with many designs that the latching mechanism is non-intuitive, ie. a person newly introduced to the box cannot readily work out how to open it. The present
invention is, in one aspect directed to an alternative means for latching the lids in the closed position which offers the public an alternative to the arrangements described in the prior art.
The tote boxes described in the foregoing prior art are all formed with the lids separate from the body of the box. The lids are hingedly connected to the body by cooperative hinge means on the body and on the lids and, in at least some cases a hinge pin linking the body to the lids. It is also known to link the lids to the body by the use of an integral or molecular hinge. In this construction the lid or lids is or are formed integrally with the body through a hinge portion of thin synthetic plastics material. As the hinge has a degree of natural resilience and memory it has a tendency lo return the associated lid to the position it was in relative to the body when the tote box was moulded. In this construction it is desirable to provide means for latching the lid in the fully open position. This facilitates the handling of the tote box in use and makes it easier to remove the contents from the box as well as making mechanised handling of the box easier in the open condition.
The prior art arrangements do not generally utilise a means for holding the lid or lids in an open condition as the conventional hinges do not have a natural resilience and memory and therefore will hang downwardly in an open position. US patent specification 4.G20.644 does however provide such a latching mechanism for the lid or lids in the open position. A latch is provided with a cam surface which ride over a downwardly directed lip on the body to latch the lid or lids in an open position. This latching imposes a stress on the hinges which is transverse to the axis of the hinge. This is probably not a problem with the conventional hinges. The present inventors have found that the imposition of latching stresses to the integral or molecular hinge that are transverse to the axis of the hinge shortens the life of the hinge and thus of the box itself. In a second aspect the invention is directed to latching means that will hold the lid or lids in an open position with reduced deleterious affect on the longevity of the hinge. Disclosure of Invention
In a first aspect the present invention relates to a container formed from a synthetic plastics material and comprising a body having a rectangular base and two opposed pairs of side walls, each side wall having a lower edge formed integrally with the base and each of a pair of side edges formed integrally with a corresponding side wall of an adjacent one of the
other pair of side walls, the container additionally has at least one lid hingedly connected to an upper edge of one of a first pair of the opposed side walls such that the lid or lids may each be pivoted between a closed position in which the lid lies adjacent the upper edges of the side walls and an open position in which the lid lies adjacent the side wall lo which it is hingedly connected, at least one of the side walls of the other pair of side walls being provided with latching means to engage with the lids. Ihe latching means comprising a blade disposed in a plane outside the sidewall to which the latching means is connected, the blade having at its upper end detent means engagable with an edge of the lid, or at least one of the lids, to releasably retain it in the closed position.
The latching means preferably extends upwardly from a web that lies in a plane laterally outside the side wall to which the latching means is connected, the web being connected to the side wall at points spaced across the sidewall from the latching means. In one embodiment of the invention the web is connected along its upper edge to the upper edge of the side wall to which the latching means is connected except adjacent the latching means. The web and its associated connections to the adjacent side wall of the body preferably also serve as a carrying handle for the container. The latching means, and the web. are preferably provided on each of the other pair of sidewalls of the body such that it is provided with a pair of carrying handles, one at each end. The latch is preferably spaced from the adjacent side wall of the container by a distance greater than the width of the detent. This allows the underside of the detent to be defined by a portion of an injection moulding die that projects through a space between the latch and the side wall.
The detent means preferably comprises an inwardly extending projection that has a cam surface on an upper side that engages with an edge of the lid as it is moved towards the closed position to cause the latching means to be flexed outwardly as the lid passes the projection. The underside of the lid that will engage the cam surface of the projection preferably is formed with a complementary cam surface.
In a second aspect the present invention relates to a container formed from a synthetic plastics material and comprising a body having a rectangular base and two opposed pairs of side walls, each side wall having a lower edge formed integrally with the base and each of a pair of side edges
formed integrally with a corresponding side wall of an adjacent one of the other pair of side walls, the container additionally has at least one lid formed integrally with the body and hingedly connected to an upper edge of one of a first pair of the opposed side walls through an integral hinge such that the lid or each lids may be pivoted between a closed position in which the lid lies adjacent the upper edges of the side walls and an open position in which the lid lies adjacent the side wall to which it is hingedly connected, complementary latching means being provided respectively on the body and on the lid. or at least on one of the lids, to releasably retain the lid in the open position, these complementary latching means being such that on engagement of the complementary latching means the integral hinge connecting thai lid to the body is substantially not stressed in a direction transversely lo the axis of the hinge.
In a preferred embodiment of this aspect of the invention the complementary latching means comprise a pair of latching projections that are designed to engage and resiliently deform at least one of them in a direction substantially parallel to the axis of the hinge. In particularly preferred embodiments both of the latching projections are resiliently defυrmable in directions substantially parallel to the axis of the hinge. The container is preferably so constructed that it is nestable with a similar container when the lid or lids are neither in the open position nor the closed position. It is also preferably so constructed thai it is stackable with a similar container when the lid or lids are in the closed position.
It is preferable that the container is foπnable in a two piece injection moulding die. This requires all of the surfaces of the container to be formed in the line of draw of the two die halves. This is greatly facilitated by the positioning of the latching means to hold the lid in the closed position outside the side wall to which it is connected.
The container is preferably formed with two lids, each one connected by an integral or molecular hinge lo the upper edge of one of the first pair of side walls. The lids are preferably each foπned with interdigitating webbed teeth along their adjacent edges. It would however be within the scope of the present invention to have a single rigid lid connected to one of the first pair of side walls or lo have a single such lid that is hinged along its centre line parallel to the integral hinge.
The lid or lids are each preferably provided with engagement members on the side of the lid that faces inlo the container when the lid is in the closed position (the inside face) which engage with one or both sides of the upper edge of at least one of the other pair of side walls. More preferably the engagement means engage with both sides of each of the other pair of side walls. These engagement means resist trapezoidal deformation of the container, or al least of the lid, when the container is dropped. This has been found to be one prime cause of hinge failure. Brief Description of Drawings The following description of a preferred embodiment of the present invention is provided as an example of the invention and is described with reference to the accompanying drawings in which:-
Fig. 1 is a perspective view of a container incorporating both aspects of the present invention with the lids in their closed position; Fig. 2 is a plan view of the container of Fig. 1:
Fig. 3 is a side elevation of the container of Fig. 1:
Fig. 4 is an end elevation of the container of Fig. 1;
Fig. 5 is the same view as Fig. 4 but with the two lid halves locked in their fully opened positions: Fig. 6 is the same view as Fig. 1 but with the two lid halves locked in their fully opened position;
Fig. 7 is the section view A-A through the container from Fig. 2;
Fig. 8 is an enlarged view of the region of the complimentary latching means of Fig. 4 from the direction of arrow B when the lid has been opened lo approximately 180u from its position in Fig. 4. Best Mode for Carrying Out the Invention
The container 10 of Fig. 1 is made as a one piece plastics moulding having a body 11. comprising a base 12 and two opposed pairs of side walls 13 and 14. and two integral closure members in the form of lids 15 and 16 hinged at their outside edges to respective ones of the side walls 13. The lids 15 and 16 are hingedly connected lo the respective side walls 13 by integrally formed hinge portions 17.
The container 10 is shaped so as to be nestable with another similar container when lids 11. 12 are open. Similarly, when the lids 11. 12 are closed, the containers 10 can be stacked with the base of an upper container
10 filling snugly within the boundary walls 18 which project upwardly from the lids 15 and 16 of the lower container 10.
Lids 15 and 1G are provided with facing co-operaling edges which have tongues, teelh or tabs 19 which interdigitate and the teeth on one edge interdigitate with recesses 21 between teelh 19 on the other lid so thai when the lids 15 and 1G are closed as shown in Fig. 2, the teeth 19 of lid 15 interdigilale with recesses 21 between teeth 19 of opposite lid 16 and vice versa. The two lids 15 and 16 must be opened and closed concurrently for proper inlerdigitalion. Hinges 17 may be arranged to yield as also may the walls 13 and 14 of the container 10 due lo the material of its construction which may be a resilient plastics material such as polypropylene.
A handle 22 is formed on each of the side walls 14. This handle 22 comprise a pair of vertical struts 23 extending in spaced apart array downwardly from the upper edge of each wall 14. The outer edges of these struts 23 are joined by web 24. A latch 25 projects upwardly from the upper edge of the web 24 intermediate its length. The latch 25 has an inward facing projection 26 at ils free end with a sloping face 27 which engages against the edges of the lids 15 and 16 as they are pushed shut, causing the latch 25 to rotate outwards and allowing the lids 15 and 16 lo move into their closed position. The latch 25 then snaps back to ils normal unstressed rest position, where projection 26 retains the lids and prevents them from opening.
The container 10 is opened by pressing the latches 25 outwardly so that the lids 15 and 16 are disengaged by the projection, allowing them to spring open under a rotational force applied by the integral hinges 17. The latch 25 is lengthened by locating its connection lo the web 24 within the web 24 by slots 20 on either side of the latch 25 which extend into the web 24. so that the flexibility provided by the extended length of the latch 25. combined with the lorsional flexibility of the web 24, provides the right degree of flexibility and resilience lo allow the latch 25 to rotate away from the lids 15 and 16 during closing and opening without permanent deformation but to spring back and remain in the closed position with sufficient rigidity to prevent accidental bursting open if the container 10 is dropped.
The objectives of a lalching or locking arrangement of this aspect of the invention are to (a) provide sufficient flexibility to engage and disengage the latch, (b) ensure that the container does not burst open when dropped
and (c) prevent permanent deformation of the latch through misuse. To "fine-tune" the die-set to optimise these attributes stiffening ribs can be formed on the side walls of the handle and retaining structures can be incorporated which will limit the length of travel of the latch, prevent over- rotation of the latch shaft and prevent stress concentration.
To provide further secLirity against burs ling of the lids and to counter possible outward deformation of the latch due lo misuse the lids may have a dimple or similar projection (not shown) on the face of the lid which in the closed position engages with a corresponding cavity (not shown) on the underside of the latch projection 26. We have found that in tests the lid hinges provide sufficient upward force to press the lids against the latches, but in the event that a greater upward force is required a further dimple-like projection (or projections) can be formed either on the underside of the lid. or on the upper edge of the container, or on bolh elements, where the lid meets the container edge, latches.
The lids 13 and 14 are also provided with releasable holding formations lo enable them to be folded back against the side walls 13 of the body 11 of container 10 and retained in that open position. The holding formations comprise a pair of lugs 28 provided on each lid 13 and 14. Each lug 28 is located on one side of the respective lid 15 or 16 and adjacent the hinge 17. Each lug 28 has an inclined cam surface 29 which slopes (when seen with the lids in their closed positions) downwardly in the direction longitudinally of the container 10 and away from it. This lug 28, when the lid is opened outwardly and downwardly through 270° to the position shown in Fig. 6. engages behind a downwardly extending flange 31 having a shoulder 32 facing towards the adjacent wall 14 of the body 11 of the container. The cam surface 29 engages with the vertically disposed shoulder 31 as the lid 15 or 16 is moved into the locked open position. As the cam surface 29 moves past the shoulder 31 any stress imposed on the lid 15 or 16 and on the associated hinge 17 will be along the axis of the hinge 17 rather than transversely to it. The likelihood of this stress causing damage to the hinge 17 is therefor diminished. The holding lug 28 and flange 32 are resilient so that the lid 15 or 16 can be pulled outwardly away from the position shown in Fig. 6 and returned to the closed position shown in Fig. 1. The underside of each of the lids 15 and 16 is formed with a rectangular reinforcing rib 33. Each of the ribs 33 is so placed on the
underside of the respective one of the lids 15 or 16 that it overlaps the base of the teeth 19 and the recesses 21 of that lid. Apertures 34 are defined in the recesses 21 within the boundaries of the ledges 33. Each of the teelh 19 is formed on its underside adjacent to its free end with a short flange 35. The flanges 35 engage with a corresponding one of the apertures 34 when the lids 15 and 16 are moved lo the closed position. The engagement of Lhese ribs 35 and the apertures 34 means that if a downward force is placed on the lids 15 and 16 when they are in the closed position they will be belter able lo resist being depressed. The underside of the lids 15 and 16 are also provided with downwardly directed stop members 36 that are located closely adjacent the edges of the lids 15 and 16 and towards their free edges. These stop members abut against the inside surfaces of the side walls 14 when Ihe lids 15 and 10 are in the closed position. This abutment resists trapezoidal deformation of the container 10 if it is dropped on its corner. Such trapezoidal deformation is known lo be a contributing cause to hinge damage in prior art arrangements.
It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive.