EP2419344A1 - Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges - Google Patents

Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges

Info

Publication number
EP2419344A1
EP2419344A1 EP10721724A EP10721724A EP2419344A1 EP 2419344 A1 EP2419344 A1 EP 2419344A1 EP 10721724 A EP10721724 A EP 10721724A EP 10721724 A EP10721724 A EP 10721724A EP 2419344 A1 EP2419344 A1 EP 2419344A1
Authority
EP
European Patent Office
Prior art keywords
wall
vertical direction
cam
transverse
contact surface
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP10721724A
Other languages
German (de)
English (en)
Other versions
EP2419344B1 (fr
Inventor
Wolfgang Orgeldinger
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
IFCO Systems GmbH
Original Assignee
IFCO Systems GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from PCT/EP2009/002760 external-priority patent/WO2010118758A1/fr
Priority claimed from DE102009049184A external-priority patent/DE102009049184A1/de
Application filed by IFCO Systems GmbH filed Critical IFCO Systems GmbH
Priority to EP10721724.2A priority Critical patent/EP2419344B1/fr
Priority to SI201030321T priority patent/SI2419344T1/sl
Priority to PL10721724T priority patent/PL2419344T3/pl
Publication of EP2419344A1 publication Critical patent/EP2419344A1/fr
Application granted granted Critical
Publication of EP2419344B1 publication Critical patent/EP2419344B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D11/00Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material
    • B65D11/18Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material collapsible, i.e. with walls hinged together or detachably connected
    • B65D11/1833Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material collapsible, i.e. with walls hinged together or detachably connected whereby all side walls are hingedly connected to the base panel

Definitions

  • the present invention is concerned with easily transportable boxes whose side walls can be folded down for transport and which has a normally open and closable in normal operation locking element for mutual locking of the side walls, which prevents destruction of the walls or the lock in case of incorrect operation.
  • foldable crates or foldable crates are available on the market, consisting of a bottom and side walls foldable with respect to the bottom so that the crates can be collapsed after use by folding down their side walls to save space and cost to the place of their renewal Use can be transported.
  • foldable boxes are used industrially on a large scale and for many different purposes, eg.
  • to transport fruit or vegetables from the harvest fields to the customers such a foldable box needs to meet many different requirements, which partially influence each other.
  • Some requirements arise from the aspect of transportability.
  • the box in the folded state has only a small stack height, so that as large a number of folded boxes can be transported on a pallet during transport.
  • the box should be as light as possible, that is, as little material as possible should be used in order to minimize the ratio of the payload to the weight of the box during transport.
  • the hinge mechanism which provides a hinged connection between the floor and exterior walls of the foldable box, can accommodate large forces.
  • the latter represents the only frictional connection between the floor, on which normally the entire load is arranged, and the outer walls, on which the gripping holes are usually located.
  • foldable boxes have a locking mechanism, by means of which the erected walls are locked together, so that the unfolded box receives the required stability.
  • This locking mechanism should be as easy to operate and error-free without much effort.
  • the possibility of incorrect operation should additionally be taken into account, that is, a force acts on the locking mechanism without being actuated. In this case, the locking mechanism should never be destroyed.
  • a foldable box having two paired longitudinal and lateral outer walls hinged with respect to the bottom of the box and allowing the outer walls to collapse inwardly. In the unfolded state, the four outer walls are mechanically connected or latched to one another in order to obtain a foldable box which has a high stability.
  • each of the longitudinal outer walls has at each end a in the unfolded state in the direction of the transverse outer walls extending projection which limits the folding ability of the transverse outer walls to the outside, that has the effect of a stop.
  • This projection should have the actually longer outer walls.
  • the shorter outer walls which are referred to below as transversely, have this projection, so that the terms can be exchanged here as well as in the following on the longitudinal and transverse sides.
  • Each of the transverse-side outer walls has a spring-tensioned locking mechanism arranged on the outer side of the transverse-side outer wall, which in the unfolded state has a latching element which is movable in a vertical direction and which can be latched to the projection of the longitudinal outer wall.
  • the locking element can thus engage directly in the projection or in an object firmly connected to the projection or latch with this.
  • the vertical movement of the locking element is achieved that the locking element can be moved almost force-free, that is, when opening the locking element or the latching only the spring force of the spring of the spring-biased locking mechanism must be overcome so as to easily to be able to solve the catch during normal operation.
  • the transverse outer wall is separated from the longitudinal outer wall, so that they can be folded down.
  • the unlocking in the vertical direction has over conventional solutions in which the latching or unlocking takes place in the lateral folding direction or in the horizontal direction, the advantage that the locking takes place in a direction in which the connection between the Side walls must absorb no force, so that no high force must be spent to lock the locking element or unlock.
  • the projection and / or the latching element in the unfolded state additionally with respect to the vertical direction such inclined contact surfaces are that the locking mechanism against the spring bias when an inwardly directed, acting on the transverse outer wall predetermined Power opens.
  • the flanks of the latching lugs or of the projection on which the latching element and the latching lug of the projection or the projection itself slide along one another are inclined relative to one another in such a way that depending on the inclination upon application of a force from outside the foldable box on the transverse outer wall always a force component in the vertical direction, that is, against the spring bias acts on the locking element.
  • an emergency release can be achieved if, for example due to incorrect operation, a large force acts on the transverse outer wall.
  • the locking mechanism is not destroyed, which would lead to a replacement of the box or a side wall.
  • the predetermined force at which the emergency release occurs or at which the locking mechanism opens against spring preload can be arbitrarily set within wide limits.
  • the magnitude of the predetermined force at which the lock automatically opens does not have any influence on the force to be exerted, which is required when the locking mechanism is in normal operation, ie. H. occurs by manually operating the locking element in the vertical direction.
  • the embodiments of the present invention thus allow both a comfortable and regular operation and additional protection against incorrect operation, without the parameters of one of the two operating methods - the regular and the wrong operation - would be interdependent.
  • embodiments of the foldable boxes according to the invention are even so robust to produce that the latch can be opened in continuous operation not only by conventional manual actuation of the locking element but also by hitting or kicking on the transverse outer wall, without damaging the box or the latching mechanism occurs.
  • the easy disassembly of an outer wall from the bottom of a foldable box is achieved by using a special hinge arrangement that includes both a shaft located at the bottom of the outer wall and a cam disposed therein when unfolding the outer wall a frictional connection between the bottom and the outer wall is made.
  • a special hinge arrangement that includes both a shaft located at the bottom of the outer wall and a cam disposed therein when unfolding the outer wall a frictional connection between the bottom and the outer wall is made.
  • a contact surface is further arranged, which is to be understood as a surface which is arranged with respect to the ground in a known relative orientation.
  • the cam is, as will be explained in more detail with reference to some of the following figures, configured or has such a three-dimensional contour that the cam, which is rigidly connected to the outer wall, in abutment with the cam wall in abutment with the contact surface device, that is, comes into contact with it and is supported by it. This support causes a translational movement of the also rigidly connected to the outer wall shaft.
  • the guide opening is configured geometrically such that it has an opening section extending essentially in a vertical direction (that is to say essentially perpendicular to the surface of the floor) and an approximately perpendicular lateral opening section extending from the outside to the inside in the lateral direction. Both the opening portion and the lateral opening portion have a cross section large enough to move the shaft in the two portions.
  • the shaft is initially arranged in the folded state of the outer wall at the bottom of the opening portion of the guide opening and through the opening sab cut in the vertical direction upwards removed. Thus, the wave is not a disassembly of the outer wall in the folded state in the way.
  • the contact surface is attached in the bottom or in the upwardly extending from the bottom of the fixed outer wall area.
  • the abutment surface is formed by the outside wall or boundary surface of the cam opening.
  • the load-bearing capacity of the connection thus formed is additionally increased by the fact that the cam opening also has an opening section extending in the vertical direction and a lateral opening section extending in the lateral direction, wherein the cam has an outer contour or geometrically so is that engages in the unfolded state, an element of the cam or a recess in the cam during the opening in the lateral opening portion of the cam opening. This also prevents the cam from sliding up out of the cam opening due to the massive material of the bottom over the lateral opening portion of the cam opening.
  • the cam in the cam opening in the unfolded state can also take up additional weight or carry an additional load, which increases the stability or the load capacity of the foldable box in this embodiment.
  • the cam opening in the vertical direction has a cross section such that the cam can be removed in the folded state of the side wall upwards out of the cam opening, so that also in the embodiment in which the cam can carry additional load, the outer wall in the folded state can be removed without tools.
  • the geometry is selected such that both the cam opening and the guide opening extend outwardly in the lateral direction to a common outer wall, so that they have, in other words, in the lateral direction identical dimensions.
  • the cam opening or guide opening has dimensions that are slightly larger than the horizontal extent of the shaft and the horizontal extent of the cam, respectively, in order to provide a play-free possible dimension To allow connection between the outer wall and the floor or the fixed outer wall portion of the soil.
  • the horizontal extent of the guide opening and the cam Opening substantially the horizontal dimensions of the shaft or the cam wherein the horizontal extent of the openings is slightly larger, for example by 0.5 mm or 1 mm.
  • a foldable box which has outer walls, which are held in the unfolded state after unfolding, in which an automatic folding of the outer wall is thus prevented.
  • some embodiments of the invention are based on the above-described hinge arrangement with a shaft in a guide opening, but without the guide opening necessarily having to have an opening area suitable for removal in the vertical direction. All that is necessary is that the guide opening has the lateral opening section extending inwardly in the lateral direction from the outside of the fixed outer wall area, within which the shaft is displaceable.
  • cam which is arranged in the foot region of the outer wall, wherein the cam has a cam contour which is designed such that, when erected by the contact of the cam contour on the abutment surface, the shaft is already exceeded is moved inward in the lateral opening portion, before the side wall is fully erected.
  • the contour of the cam is configured to exceed the critical angle when erecting the outer wall before the underside of the outer wall contacts the inner edge portion of the upwardly extending fixed outer wall portion of the floor during erecting. Due to the fact that the shaft is already cut to the inner position in the lateral opening at the first contact of the bottom of the outer wall with the inner edge region, the shaft can absorb a substantially upward force. Since the shaft can already absorb this force, upon further raising of the outer wall over the inner edge region by the action of the rigidly connected to the outer wall shaft (for example, attached to a foot of the outer wall spacer), the underside of the outer wall with a first contact force against pressed the inner edge region of the fixed outer wall portion. This is greater than a second contact force with which the underside of the outer wall in the erected vertical position, that is, after exceeding the inner edge region, is pressed by the action of the shaft against the upper side of the fixed outer wall region.
  • the functionality that the outer wall in the unfolded state remains independent can be achieved without, for example, in the prior art conventional clamping on moving parts, such as must be made to the waves of hinges, by otherwise inhibiting the movement a hinge is achieved.
  • Such clamps are subject to undeniable wear, especially when using plastic parts, so that the movement inhibition and thus the functionality of the side wall automatically declines over time.
  • the mechanism works substantially wear-free, since the movement of the shaft itself is completely wear-free within the lateral opening sab section.
  • the force is generated by elastic tracking of the components involved without friction, so that with proper dimensioning of the force-absorbing component, such as the shaft connecting to the outer wall web or spacer a wear-free continuous operation is ensured.
  • At least one of the outer walls has a particularly stable structure with advantageous properties resulting from the fact that stable, spherical, with respect to an outside of the box convex wall areas are connected by means of webs and ribs.
  • a web arranged over a height of the outer wall and arranged on the outer side of the outer wall is arranged.
  • one or a plurality of ribs extends between the spherical wall portions, with the ribs extending from the rib to each of the spherical surface portions on both sides of the rib.
  • These embodiments of outer walls according to the invention therefore comprise spherical surfaces which are arranged adjacent to one another and which are connected to one another by means of an arrangement of ribs and webs between the respectively adjacent spherical surfaces in order to increase the connection rigidity of the outer wall.
  • spherical surfaces have the advantage that they are intrinsically torsionally rigid up to a certain size, which is caused by the curvature of the surface at the edge regions.
  • spherical surfaces are to be understood as such surfaces extending from a flat base surface in a predetermined direction raise, wherein the surface is not stepped in the contour of the base surface, but the contour s-shaped away with predetermined radii of the base surface.
  • a spherical surface region may also have a partial surface which is completely flat and parallel to a distance from the base surface, which is dependent on the S-shaped contour at the edge of the spherical surface.
  • a plurality of convex surface areas are used in a wall, which are interconnected by an array of ribs and perpendicular to the ribs extending over the height of the outer wall webs to the inherently stable convex surface areas without high
  • material costs extremely stiff to bond together, so that results in a very robust overall structure with low wall thickness.
  • the ridges and the ribs are located solely on the outside of the outer wall so that the stiffening effects are achieved without compromising hygiene by allowing food debris to get caught in the sharp edges of the ribs and ridges inside the box
  • all of the hinge assemblies connecting the outer wall to the bottom of the foldable box are located substantially at the areas where the bars are located between the spherical surfaces. Since the webs running over the height of the outer wall are the structures which can bear the greatest tensile load, the structure of the hinge elements thus produced produces a structure or an outer wall which fulfills the greatest possible stability requirements, also with regard to the transmission of power to the ground. has, and at the same time requires only a thin, material-saving outer wall, which is also smooth on the inside and therefore easy to clean.
  • Fig. 1 is an overall view of an embodiment of a foldable box
  • Fig. 2 is a plan view of the embodiment of the box of Fig. 1;
  • Fig. 3 is a side view of the foldable box of Fig. 1;
  • Fig. 4 is an overall view of another embodiment of a foldable
  • Fig. 5 is a detail view of a cam and shaft of a hinge assembly used in some embodiments of the invention.
  • FIG. 6 shows a further detail view of the cam and the shaft from FIG. 5 from a different perspective
  • Fig. 7A is a detail view of a guide opening and a cam opening for receiving the shaft and the cam of Figs. 5 and 6;
  • FIG. 7B shows the detail view of FIG. 7A from a different perspective
  • Fig. 8 is a plan view of an embodiment of a hinge assembly
  • Fig. 9A is a sectional view through the shaft in the folded state of the foldable box
  • Fig. 9B is a sectional view through the cam in the closed state
  • 10A is a sectional view through the shaft in the half-open state
  • Fig. 1OB is a sectional view through the cam in the half-open state
  • Fig. IIA is a sectional view through the shaft in the open state
  • Fig. IIB is a sectional view through the cam in the open state;
  • Figure 12 is a side view of a transverse side wall of an embodiment of a foldable box with a locking mechanism with locking element.
  • FIG. 13A shows an exemplary embodiment of a latching element
  • Fig. 13B another embodiment of a locking element.
  • Fig. 1 shows a semi-perspective view of an embodiment of a foldable box.
  • a foldable box is to be understood as meaning a box or tray which is open in one direction (vertically upwards) and which has a floor and four outer or side walls which are connected to the floor in such a way. are bound that they can be moved with respect to the soil or opened and closed.
  • the box has in the closed state, that is, when all four walls are folded on the ground, only a small height and is easy to transport.
  • the foldable box of FIG. 1 thus has a bottom 2, pairwise opposite lateral outer walls 4a and 4b, as well as longitudinal side walls 6a and 6b which are also opposite one another in pairs.
  • longitudinal outer walls those outer walls are to be referred to, which have a greater extent than the transverse outer walls.
  • longitudinal side and transverse side is used only for identification of the outer walls described in each case.
  • the terms can also be reversed on the longitudinal side and transverse side, so that the features described for the longitudinal outer walls can also (at the same time) be implemented on the transverse side and, of course, on both side walls.
  • all the features described below can be combined as desired, so that some embodiments of foldable boxes according to the invention have only one of the features, while other embodiments may have all the features.
  • Fig. 1 shows a foldable box in the unfolded state, while the box is to be understood as being in the folded state, when all the side walls are collapsed.
  • the vertical direction 8 is substantially perpendicular to the surface of the bottom 2, and the relative position designations above and below in this context are to be understood as meaning above a vertically remote from the ground position than below.
  • the relative position indication inside denotes a position which is closer to the volume enclosed by the box than a position which is marked with the term outside.
  • the longitudinal-side outer wall 6b On the outside or on the outside, therefore, for example with respect to the longitudinal-side outer wall 6b, it means that those components are described which are directly visible in the semi-perspective view of FIG.
  • the height of the sidewalls is to be understood as the extent in the unfolded state in the vertical direction 8 illustrated in FIG. 1, while the thickness or width is to be understood as the maximum extent between the inside and outside of the outside walls.
  • the directions laterally and horizontally are to be understood in each case relative to the outer wall just considered.
  • the horizontal direction is the direction along the largest longitudinal extent of the considered side wall, so that the horizontal direction with respect to the outer wall 6b, for example, as indicated by arrow 11 results.
  • the lateral direction designates the direction between the outside and the inside of the walls in the unfolded state, so that, for example, for the outer wall 6b, the lateral direction indicated by the reference numeral 12 results.
  • the corresponding application of these definitions on the transverse outer wall 4b leads to a horizontal direction 14 and to a lateral direction 15.
  • the lateral, vertical and horizontal directions define a substantially rectangular coordinate system with respect to each outer wall.
  • a bottom 2 which consists on the one hand of a flat, flat main body, and in addition on two opposite outer sides extending from the bottom in a vertical upward direction having fixed outer wall portion 18.
  • This is highlighted hatched for ease of illustration in Fig. 1 and may for example serve to accommodate or provide hinge elements and ensure that a pair of side walls in the closed state on the other pair of side walls can come to rest.
  • the vertically outwardly extending fixed outer wall region is considered to belong to the ground, so that some of the discussed features can also be realized in the flat bottom region.
  • Fig. 2 shows for re-illustration a plan view of the foldable box shown in Fig. 1, in which the bottom 2, the long-side outer walls 6a and 6b and the transverse-side outer walls 4a and 4b are clearly visible. Furthermore, it can at least be seen in FIG. 2 that the longitudinal and the transverse side outer walls are locked together in the unfolded state at the edges abutting one another, so that the unfolded box achieves a high stability.
  • a latching element which is arranged on the transverse outer wall 4a, engages in the projection 22 and locks with it into a mechanically loadable connection in order to ensure the stability of the box to reach.
  • Fig. 3 shows a side view of an embodiment of a foldable box, in which some advantageous features of the outer wall 6b of this embodiment are clearly visible.
  • the embodiment of the outer wall 6b shown in Fig. 3 is characterized in that spherical surface areas which are convex with respect to the outside of the foldable box, are combined with stiffening elements of ribs and webs such that a result is extremely stable outer wall, however at the same time is substantially smooth on the inside and has only a small thickness, ie a small extent in the lateral direction.
  • the thickness in the lateral direction is not only a criterion with regard to the material and the weight to be used, but in particular also for the stack height to be achieved, ie the height of a box in the closed state, which essentially consists of the thickness of the bottom, the transverse outer walls and the longitudinal outer walls results.
  • the thinner a wall can be with given flexibility, that is, the better.
  • the outer wall consists of spherical outer wall surfaces 20a, 20b and 20c which are convex with respect to the outer side and which are connected to one another by means of an arrangement of ribs and struts.
  • the spherical wall areas are intrinsically stable due to their shape, as already explained above.
  • FIG. represents, between the spherical wall portion 20 a and the spherical wall portion 20 b, a arranged on the outer side of the outer wall web 22 is provided which extends over the height 24 of the outer wall, that extends in the vertical direction 8. This bridge leads to a high load capacity in the vertical direction.
  • the use of the web and rib arrangements connecting the spherical surface elements also makes it possible to perforate the spherical surface elements or to provide them with a plurality of openings in order to save material and to be able to clean the wall well.
  • the weakening of the structure of the spherical surface areas perforation can be accepted, since the use of webs and ribs between the spherical surface areas, the overall stability can still be maintained.
  • Fig. 3 also some optional webs are shown, which also extend over the spherical area itself and serve to increase the overall stability even further. However, these webs are optional, since in some embodiments already the combination of spherical surface areas and webs or the required stability can guarantee.
  • a further embodiment of the invention only the webs 22 and 30 between the spherical surface areas 20a, 20b, 20c.
  • hinge arrangements by means of which the outer wall is hingedly connected to the bottom 2 or with the fixed outer wall portion 18, only in those areas at the foot of the outer wall 6b (to the bottom 2 facing the end of the outer wall 6b) arranged by the webs extend to the foot of the outer wall. All of the hinge arrangements or hinge mechanisms 40a, 40b, 40c and 40d, which are only indicated here, are located in the region of the webs extending in the vertical direction 8 in the exemplary embodiments shown in FIG. 3 and in FIG. This leads to an increased stability of the Overall construction, since the hinges must absorb the force acting in the vertical direction 8 when the box is loaded, so that it is of great advantage when the hinges are in the position of the webs, which also serve to load in the vertical direction.
  • a ridge capable of doing so is generally a material rising from the surface of the outer wall in the lateral direction and extending over the height of the outer wall.
  • the ribs also extend laterally out of the surface of the outer wall, the ribs extending substantially along the horizontal orientation. In some other embodiments, the ribs do not extend horizontally, but in a different orientation, but it should be ensured that at least one rib extending from the webs, also in another orientation, to the adjacent to the webs spherical surface areas.
  • FIG. 4 shows a view of a further exemplary embodiment of a foldable box, which differs from the exemplary embodiment shown in FIG. 1 by the other dimensioning.
  • the foldable box shown in FIG. 4 has a smaller height, that is to say a smaller extent of the vertical direction 8. Since the other features of the foldable boxes in Fig. 1 and 4 correspond, reference is made here to a description of the features on the said to Fig. 1 said, even at the lower height of the box shown in Fig. 4 nor the concept of each other adjacent spherical surface areas, which can be realized by means of a web and at least one rib which extends from the web to each of the adjacent spherical surface areas, as shown in FIG. 4 can be seen.
  • Fig. 1 shows a view of a further exemplary embodiment of a foldable box, which differs from the exemplary embodiment shown in FIG. 1 by the other dimensioning.
  • the foldable box shown in FIG. 4 has a smaller height, that is to say a smaller extent of the vertical
  • FIG. 4 shows the great flexibility of the functional interaction of the spheres of spherical goods and the struts and rib construction connecting them, which is readily adaptable to changing geometric constraints.
  • Fig. 4 (as in Fig. 1) to install in the central region of the foldable box a handle opening 46, at which usually in the normal use of the box, the entire load is raised.
  • the use of spherical surface areas makes it possible to construct a spherical surface area which the grip area dispenses with and is located below the grip area, so that even in the area of the grip there is no need to dispense with a spherical surface area which increases the stability.
  • Fig. 1 shows the great flexibility of the functional interaction of the spheres of spherical goods and the struts and rib construction connecting them, which is readily adaptable to changing geometric constraints.
  • a handle opening 46 at which usually in the normal use of the box, the entire load is raised.
  • the use of spherical surface areas
  • the handle is connected to the underlying spherical surface area by means of vertically extending webs, which leads to increase the stability in the direction of force. Furthermore, an outer contour of the handle is connected via additional ribs directly to the webs arranged between the spherical surface areas 22 and 30, resulting in the grip of the grip area 46, which actually weakens the stability of the construction, does not impair the overall stability since the force acting on the grip can be transferred directly to the adjacent spherical surface areas.
  • FIG. 4 the functionally identical or similar functional elements or features are provided with the same reference numerals that were already used in FIG. 1. This also applies to the following drawings, in which functionally identical or functionally similar features are each provided with identical reference numerals.
  • FIG. 5 and 6 show detail enlargements of a shaft 50 arranged in the foot region of the outer wall 6b and of a cam 52 of the hinge arrangement 40c of the foldable box 1 arranged in the foot region from different perspectives, wherein FIG. 5 shows a view from the inside, that is to say in the lateral direction from the inside to the outside and Fig. 6 shows this corresponding view from outside to inside.
  • the shaft 50 is substantially cylindrical in this embodiment and extends in the horizontal direction.
  • the cross section of the shaft can also be any other than circular, such as oval, square, cuboid or triangular.
  • the cam is substantially parallelepiped-shaped, with the cam contour deviating from the cuboid shape in some places in order to achieve the various functionalities of the cam.
  • FIGS. 7A and 7B which also show different views of a guide opening 54 and a cam opening 56 located within the fixed outer wall portion 18 of the floor 2, and in which the shaft 50 and the cam 52 are arranged.
  • FIG. 7A shows an inside-out view
  • FIG. 7B shows an outside-in view.
  • FIGS. 5 through 7B show the disassembled features of the hinge assembly
  • FIGS. 8 through 11B show the assembled hinge assembly in which the cam 52 is within the cam aperture 54 and the shaft 50 is within the guide aperture 54 that the interplay of the different components of the hinge arrangement can be reconstructed with reference to FIGS. 8 to IIB.
  • 8 shows a plan view of the hinge arrangement in the folded or folded state of the outer wall 6b, while FIGS.
  • 9A to IIB show a sectional view through the hinge arrangement, which are shown during different phases of the unfolding of the outer wall 6b.
  • 9A, 10A and IIA respectively show a section on the cutting line 60 through the shaft 50.
  • Figs. 9B, 10B and IIB show a section through the cam 52 along the section line 62 of Fig. 8.
  • the operation of the hinge assembly will in the following so described with reference to FIGS. 5 to IIB.
  • the shaft 50 is disposed in the guide hole 54 and the cam 52 is disposed in the cam hole 56.
  • the guide opening 54 is divided into two functionally different regions, namely an opening section 54a extending substantially in the vertical direction 8 and a lateral section extending substantially in a lateral direction 12 from the outside of the stationary outer wall section 18 and the guide opening 54, respectively Opening portion 54b.
  • the lateral opening portion 54b is located at the bottom of the guide opening 54, although this is not to be understood as limiting. Rather, in other exemplary embodiments of the invention, the lateral opening section can also be arranged further upwards in the vertical direction.
  • the cam opening 56 has a substantially vertically extending opening portion 56 a.
  • the cam hole 56 also has a lateral opening portion 56b extending inward in the lateral direction from the outside and the outside boundary of the cam hole 56, respectively.
  • the different opening portions are best identified in the sectional view of FIGS. 9A and 9B, where they are also provided with the corresponding reference numerals. In order not to worsen the clarity of the representation of the operation, was omitted in the other figures, to provide the opening portions with the respective reference numerals.
  • the vertically extending opening portion 54a of the guide opening 54 has a cross-section which is large enough to remove the shaft 50 in the folded state of the side wall 6b in a vertical upward direction from the guide opening 54 can.
  • the shaft 50 is rigidly connected via a spacer 64 to the foot 66, that is to say to the end of the outer wall 6b lying downwards in the vertical direction 8.
  • the shaft 50 is therefore rotated relative to the guide opening 54.
  • the cam 52 fixedly connected to the foot 66 of the outer wall 6b is rotated relative to the cam opening 56.
  • the substantially vertically extending opening portion 56a of the cam opening 56 has a cross-section large enough that the cam 52 in the folded state from the cam opening 56 vertically after can be housed at the top.
  • the side wall 6b as can be seen from the half-view of the outer wall 6b in FIG. 8, is connected to the fixed outer wall area 18 via four shafts and two cams of the type described above. In the folded-down state, the outer wall 6b can thus be dismounted easily and without tools, which makes it possible to replace a possibly damaged outer wall.
  • both the guide opening 54 and the cam opening each have an inside breakthrough 70 and 72 in the inner boundary wall of the openings 54 and 56, within which the spacer 64 of the shaft or the attachment of the cam 52 with the foot 66 of the side wall 6b serving part of the cam 52 is movable.
  • connection between the side wall and the fixed outer wall area in the folded-down state can therefore be released without tools, ie a force acting in the folded-down state in the vertical direction on the outer wall 6b is not picked up by the hinge arrangement Transfer floor 2, as required, to be able to load the box in the unfolded state.
  • the contour of the cam 52 is not substantially radial in the embodiment shown here as the contour of the shaft, but the outer wall or outer side 76 of the cam opening 56 then acts when erecting the outer wall 6b as a contact surface on the fixed outer wall portion 18, on which the cam 52 when erecting the Exterior wall 6b supported as it were.
  • an inward force acts on the sidewall 6b immediately after the start of erection, causing the shaft 50 to move inwardly in the lateral opening portion 54b so as to move is already within a predetermined limit angle within the lateral opening portion 54b (at an inside end position in the lateral opening portion 54b), as shown in Fig. 10A.
  • the lateral opening portion 54b is bounded vertically upwards by the material of the fixed outer wall area 18. This boundary is formed in FIG. 7 by the two tabs 78a and 78b which extend into the guide opening 54 above the lateral opening section 54a extend and prevent the shaft can be moved up out of the guide hole 54 out.
  • the shaft 50 is thus moved laterally inward when erected within the lateral opening section 54b, up to a position in which the shaft 50 can no longer be removed from the guide opening the shaft can transmit a force acting in a vertical upward direction on the outer wall 6b to the floor 2.
  • the cam 52 has a cam contour which is designed such that when the outer wall is erected, the cam contour comes into abutment with a contact surface 56 in such a way that the shaft 50 is moved inward in the lateral opening section 54b.
  • the shape of the contact surface plays no role, the planar contact surface shown in the figures is to be understood merely as an example of any geometry of the contact surface, which causes a force is exerted on the cam.
  • the abutment surface could also be inclined with respect to the vertical direction 8, which, in combination with a cam contour that is essentially circular with respect to the abutment surface 56, also results in that the shaft is moved inward during alignment.
  • This embodiment also makes it clear that the geometry of the cam can be almost arbitrary as long as the cam contour is formed such that the cam contour comes into abutment with the abutment surface in such a way that the shaft 50 is moved inwards.
  • the shaft 50 is thus located in the lateral opening section 54b of the guide opening 54, so that now the outer wall 6b and the floor are non-positively connected to one another.
  • the exemplary embodiment shown here additionally has two projections 80a and 80b, which extend in the unfolded state of the outer wall 6b in the lateral direction to the outer-side edge of the guide opening 54. These optional projections 80a and 80b additionally prevent the shaft 50 from undesirably being able to be displaced out of position by elastic deformation, for example, when the outer wall 6b is in the unfolded state.
  • the exemplary embodiment illustrated here also has a further optional configuration or functionality of the cam 52.
  • the cam contour at the position where the lateral opening portion 56b of the cam hole 56 is bounded upward by material of the fixed outer wall portion 18 (at the positions of the overhangs 82a and 82b) is L-shaped, so that 1OB and IIB can be seen, the cam 52 in the lateral opening portion 56b of Cam opening engages.
  • a force is transferred from the outer wall 6b to the bottom 2 in the erected state by the cam 52, which can additionally increase the stability of the overall construction, if this optional feature is implemented.
  • a cam 52 with a contact surface 76 and a shaft 50 which is arranged in a guide opening 54, a hinge assembly which is removable in the folded state and in the unfolded state of the outer wall 6b in is able to transfer the required forces to the ground 2.
  • FIG. 6 Another embodiment of the present invention will be discussed below also with reference to Figs. 6 to IIB.
  • This embodiment makes it possible to connect an outer wall by means of a hinge arrangement with a bottom 2 of a foldable box 1 such that the outer wall 6b is kept in an upright position after erecting itself. Since it is not primarily important in this embodiment that the guide opening 54 and the cam opening 56 are configured in the vertical direction such that the cam 52 and shaft 50 can be removed upwards, this feature is in the embodiments of the present invention now described optional. In the embodiments of the present invention which allow a self-standing wall, it is necessary that the cam contour of the cam 52 is configured so that, as shown with reference to FIG.
  • the cam contour in the erection of the outer wall 6 b so in abutment the guide surface 76 device that when exceeding a critical angle 68, the shaft 50 is moved inwardly before the bottom or the foot 66 of the outer wall 6b in contact or in contact with the inner edge region 90 and to the inner edge 90th the stationary outer wall portion 18 device.
  • the shaft 50 can already receive a force acting in the vertical direction in front of it, so that it is possible to dimension the distance between the inner edge region 90 and the shaft 50 in such a way that when the outer wall 6b moves over the edge 90, that is after Exceeding the critical angle 68 is pressed by the action of the shaft 50, the underside 66 of the outer wall 6b with a contact force against the inner edge portion 90 which is greater than a second contact force, with the lower side 66 of the outer wall 6b in the upright vertical Position is pressed by the action of the shaft 50 against the top of the fixed outer wall portion 18.
  • the inside of the cam contour may be configured such that when exceeding the edge 90, the contact pressure is achieved by the action of the cam 52, for example, if this already in abutment with the cam opening 56 upwardly bounding material 82 b of the cam opening 56 is located.
  • the unfolded wall is held in the unfolded state when the cam contour is configured such that when the outer wall 6b is erected, the cam contour comes into contact with the guide surface 76 such that when a critical angle 68 is exceeded, the shaft 50 moves inwardly into the lateral opening portion 54b is moved, so that after exceeding the critical angle 68 by the action of the shaft 50 or the cam 52, a bottom 66 of the outer wall 6b is pressed with a first pressing force against an inner edge portion 90 of the fixed outer wall portion 18.
  • This first pressing force is greater than a second pressing force, with which the underside 66 of the outer wall 6 b is pressed in the raised position by the action of the shaft 50 or the cam 52 in the top of the fixed tenuwandbe- area 18.
  • the outer wall region whose resistance is to be overcome when unfolding, does not have to be formed by the entire length of the inner edge 90 of the fixed outer wall region 18. Rather, it is also possible, for example, to influence the required force, to bring only geometrically delimited areas of the inner edge 90 when opening in abutment with the outer wall 6b.
  • inwardly extending projections can be formed on the inner edge 90 of the outer wall, so that the outer wall 6b only has to overcome the resistance caused by these projections. This can for example serve to adjust the force that is required when erecting the outer wall 6b, and thus to adapt it to the requirements of the user.
  • the center of the shaft 50 in the lateral direction 12, after moving the shaft 50 inwardly, is further toward the outside of the foldable box 1 than the inside edge 90, which results in the distance between inside edge 90 and shaft 50 is greater than the distance between O- overside of the fixed outer wall portion 18 and shaft 50.
  • This automatically causes the balance of power described above.
  • the outer wall 6b is held up by elastic deformation of the material and not by friction in the form of a braked shaft or the like, as is usual, can be provided by the embodiments of the invention, a mechanism that without Wear leads to that unfolded outer walls 6b remain automatically in the unfolded state.
  • FIG. 12 shows a side view of the foldable box shown in FIG.
  • the transverse outer wall 4b shown in the plan view has a spring-biased locking mechanism 100 which has a latching element 100 connected to the outer walls 6a and 6b, or protrusions 22 extending from the longitudinal outer walls 6a and 6b towards the transverse outer wall 4b extend, can lock.
  • the latching element can be mechanically detachably connected to the projections, so that the longitudinal side walls 6a and 6b and the transverse side wall 4b are mechanically rigidly but detachably connected to one another in order to obtain a stable unfolded box 1.
  • FIGS. 13A and 13B show a sectional view along the section line 102 of FIG. 12, wherein in FIGS. 13A and 13B only that region 104 in which the latching element is latched to the projection 22 is shown enlarged.
  • FIGS. 13A and 13B show, by way of example, one of several possible embodiments of the latching element 100 and of the projection 22. In the case of already opened longitudinal side walls 6a and 6b, the projection 22 extends in the direction of the transverse outer wall 4b.
  • the projection 22 has an inwardly extending latching hook 106 which is essentially parallel to the longitudinal outer wall 6a and comprises an inwardly directed first contact surface 108 and an outwardly directed second contact surface 110.
  • the latching element 100 which also has an inwardly directed first contact surface 112 and an outwardly directed second contact surface 114, comes in contact with the inwardly directed contact surface 108 of the latching hook 106. Due to the inclination of the inwardly directed contact surface 108 of Snap-in latch 106, the locking element 100 is moved in the vertical direction 8 upwards and can engage in a locking position shown in Figures 13A and 13 B in the latching hook 106.
  • the locking element 100 and the spring-biased locking mechanism are integrally formed in the embodiment described herein and therefore provided with the same reference numerals.
  • the spring bias is achieved in the embodiment of the invention discussed herein by integrally formed with the locking mechanism spring elements 120a and 120b, exerting the spring force on the locking mechanism 100 due to their elasticity and shape.
  • the locking element 100 is in the locked position in the latching nose 106, the longitudinal side walls 6a and 6b and the transverse side wall 4b are mechanically locked together and connected, so that the box has a high stability.
  • the lock can thereby be released in a simple manner by actuating the locking mechanism 100 in a vertical upward direction, due to the shape of the locking mechanism, a handle portion 126 which is disposed below a support opening 128 in a simple manner and even simultaneously can happen with the lifting of the box.
  • the outwardly directed second contact surface 110 of the latching hook 106 is inclined relative to the vertical direction 8 and / or the inwardly directed first contact surface 112 of the latching element 100 is inclined.
  • the average inclination of the inwardly directed first contact surface 108 of the latching hook is greater than the average inclination of the second contact surface 110 of the latching hook 106.
  • alternative embodiments of the present invention may also latch directly to the projection 22 or a suitable opening in the projection 22 itself. It is crucial lent that the projection 22 or an element connected to this and or the latching element 100 in the unfolded state relative to the vertical direction 8 such contact surfaces 110 and 112 have such that the locking mechanism 100 against the spring bias when exceeding a inwardly directed to the quersei- tige outer wall 4b predetermined force opens.
  • each spring-biased locking mechanism 100 and the detent element are integrally formed in the embodiment described in Figure 12, it is of course also possible to make these components in multiple pieces or, for example, perform the locking mechanism separately for each side. Even in these cases, the non-destructive emergency release function can be maintained.
  • foldable boxes used for transporting vegetables or the like.
  • foldable boxes according to the invention are not limited to this field of application. Rather, there is also the possibility to accomplish other transport tasks, such as the transport of bottles or the like with similar foldable boxes, in particular, the contour of the bottom mold or the inside outer walls may change to better adapted to the specific task.
  • plastic, metal or wood can be used to produce inventive foldable boxes. Due to the particularly robust embodiment can It also heavy loads are transported safely and reliably, as is the case for example in catering for the transport of crockery or cutlery or the like. Since the use of one of the embodiments described above leads to foldable boxes which are hygienic, easy to clean, extremely stable, compact and easy to fold and extremely easy to handle, there are no limits to the field of application of foldable boxes according to the invention, since these are due to the large number of positive properties suitable for almost any use.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Rigid Containers With Two Or More Constituent Elements (AREA)

Abstract

Caisse pliable (1) qui comporte un fond (2) et deux paires de parois latérales opposées longitudinales (6a, 6b) et transversales (4a, 4b). Chacune des parois latérales longitudinales (6a, 6b) comporte au niveau d'au moins une extrémité transversale un élément saillant (22) qui s'étend en direction des parois latérales transversales (4a, 4b) lorsque les parois latérales longitudinales sont relevées et qui limite vers l'extérieur le basculement des parois latérales transversales (4a, 4b). Chacune des parois latérales transversales (4a, 4b) comporte un mécanisme de verrouillage précontraint par ressort et situé sur la face externe de la paroi latérale transversale (4a, 4b), qui comprend, lorsque la paroi est relevée, un élément d'encliquetage (100) mobile dans une direction (8) verticale par rapport à la surface du fond (2) et pouvant s'encliqueter avec l'élément saillant (22) de la paroi latérale longitudinale (6a, 6b). L'élément saillant (22) et/ou l'élément d'encliquetage (100) comportent des surfaces de contact (110, 112) qui sont inclinées par rapport à la direction verticale (8,) lorsque les parois sont relevées, de manière telle que le mécanisme de verrouillage s'ouvre en cas de dépassement d'une force prédéfinie orientée vers l'intérieur et s'exerçant sur la paroi latérale transversale (4b) à l'encontre de la précontrainte par ressort dudit mécanisme.
EP10721724.2A 2009-04-15 2010-04-14 Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges Active EP2419344B1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP10721724.2A EP2419344B1 (fr) 2009-04-15 2010-04-14 Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges
SI201030321T SI2419344T1 (sl) 2009-04-15 2010-04-14 Zaboj z zgibnimi stranskimi stenami in zapahnilnim mehanizmom z zaščito pred preobremenitvijo
PL10721724T PL2419344T3 (pl) 2009-04-15 2010-04-14 Skrzynka ze składanymi ściankami bocznymi oraz zatrzaskiem zabezpieczonym przed przeładowaniem

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
PCT/EP2009/002760 WO2010118758A1 (fr) 2009-04-15 2009-04-15 Réceptacle à paroi latérale repliable
DE102009034430 2009-07-23
DE102009049184A DE102009049184A1 (de) 2009-04-15 2009-10-13 Kiste mit faltbaren Seitenwänden und Verriegelungsmechanismen mit Überlastschutz
EP10721724.2A EP2419344B1 (fr) 2009-04-15 2010-04-14 Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges
PCT/EP2010/054904 WO2010119073A1 (fr) 2009-04-15 2010-04-14 Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges

Publications (2)

Publication Number Publication Date
EP2419344A1 true EP2419344A1 (fr) 2012-02-22
EP2419344B1 EP2419344B1 (fr) 2013-06-05

Family

ID=45475346

Family Applications (1)

Application Number Title Priority Date Filing Date
EP10721724.2A Active EP2419344B1 (fr) 2009-04-15 2010-04-14 Caisse pourvue de parois latérales pliables et de mécanismes de verrouillage avec protection contre les surcharges

Country Status (3)

Country Link
EP (1) EP2419344B1 (fr)
PL (1) PL2419344T3 (fr)
SI (1) SI2419344T1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3118951A1 (fr) 2021-01-19 2022-07-22 Thegreenflux Conteneur pliable notamment pour le transport de fruits et légumes

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2010119073A1 *

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3118951A1 (fr) 2021-01-19 2022-07-22 Thegreenflux Conteneur pliable notamment pour le transport de fruits et légumes
WO2022157444A1 (fr) 2021-01-19 2022-07-28 Thegreenflux Conteneur pliable notamment pour le transport de fruits et légumes

Also Published As

Publication number Publication date
EP2419344B1 (fr) 2013-06-05
PL2419344T3 (pl) 2013-10-31
SI2419344T1 (sl) 2013-10-30

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