法国专利FR3017937A1 ISOTHERMIC CONTAINER FOR THE CONSERVATION OF MISCELLANEOUS PRODUCTS

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专利摘要:
This container comprises an insulating box, a door D of insulating material, and G locking means of the door in the closed position. The invention aims to provide a multi-component container having a volume adaptable to the demand, which is less heavy and less expensive, while having a good resistance to aging and blows. According to the invention its body is formed by stacking body elements A of insulating material and each having a generally U-shaped whose ends of the wings 2 define the access opening 1, these elements A being inserted between elements end of B which, same U-section qu'but closed on one side by a bottom 15, are reinforced by independent metal frames C exerting on them a compressive force produced by metal clamping rods F. Celles ci extend between the two chassis C and pass through the body elements A and the end elements B through holes 14 and 19.
公开号:FR3017937A1
申请号:FR1451461
申请日:2014-02-24
公开日:2015-08-28
发明作者:Helene-Francoise Olivo
申请人:OLIVO；
IPC主号:

专利说明:

[0001] Isothermal container for the preservation of various products. The invention relates to containers for the preservation, cold or hot, of various products. In a known manner, this type of container is in the form of a monolithic box, either vertical with a front door, or horizontal with an upper door. The boxes and the door are generally made separately and composed of a core of insulating material which is inserted between rigid walls of glass-resin laminates or between roto-molded plastic walls. The lower part is generally equipped with wheels and the door is provided with closure means, associated or not with stiffening means. For cold storage, the cold source consists either of eutectic plates containing a liquid mixture able to store the negative calories, or of a tank accommodating dry ice and able to ensure a fresh or frozen preservation. These containers are intended to be moved between a place of departure, where they are loaded products to be kept and loaded in cold, and a place of arrival where they are unloaded of their contents. This movement back and forth between premises and a transport vehicle involves many manipulations. These are sometimes carried out without particular care, by a staff not attentive to the preservation of the container. As a result, to obtain containers having a satisfactory life, these are designed to be resistant. The corollary is that they are relatively expensive, and that this extra cost applies to careful users and containers less prone to manipulation.
[0002] The invention therefore relates more particularly to isothermal containers comprising: - a box of rigid insulating material, substantially parallelepipedic, having an opening divided into a space for receiving the products and foodstuffs to be kept in temperature and a space for receiving heat transfer means 30 a door made of insulating material applied against the edges of the opening of the box to close the container in a sealed manner, and means for closing the door putting it in compression against the support means of the box. of the container. A first object of the invention is to provide less heavy and less expensive containers, but retaining at least the same insulation capacity and a very satisfactory duration of use, thanks to good aging and impact resistance. Handling. Another object of the invention is to provide a multi-component container 40 enabling the manufacturer to replace the components damaged by the shocks and, allowing the number of identical components to be modified, to produce containers having different capacities. In the container according to the invention, the body is formed by stacking body elements A of insulating material and each having a generally U-shaped, the ends of the wings delimit the access opening, these body elements being inserted between two end elements B. These have a same U-shaped section but are closed on one side by a transverse wall and are reinforced by independent metal frames exerting on their transverse walls a compressive force . This force is generated by clamping rods extending between the two frames and passing through the body elements A and the end elements B. Thus, to increase the interior volume of the container, it is sufficient, during its construction, to increase the number of body elements arranged between the end elements and to use longer clamping rods, provided that a monolithic door adapted to the opening of the box is used. Furthermore, in case of deterioration of one or more body elements causing a decrease in their resistance or a reduction in their insulating capacity, the repair can be performed easily by dismantling the container to replace the defective elements.
[0003] In a preferred embodiment, the door has, in each of its longitudinal edges, spaced bearings in which are arranged a metal reinforcing rod through the door over its entire length, said door comprising: - on the side of its articulation on the body and in the space between bearings, rods whose one end is articulated on its reinforcement rod and the other end on a rod of the box, and - on the other side and in the spaces between the bearings, hooking means passing in intervals between bearings of the box to hook on a clamping rod of the box.
[0004] This arrangement makes it possible to guarantee the veneer of the door on the box and the maintenance of the qualities of preservation of the container. Advantageously, the body elements, the end elements and the door are monolithic and made of expanded cellular material, for example expanded polypropylene.
[0005] Thus, these elements have a very insulating core protected by a harder surface skin and more resistant to shocks and scratches. In addition, the use of a single material to achieve the body and the door of the container, instead of using the traditional design using a complex formed by composite walls, glass-resin, between which an expandable foam insulation is injected , facilitates recycling at the end of the container's life.
[0006] This recycling is also facilitated by the reduction of the number of components and by their method of assembly, without glue or large screws, which reduces the duration of the dismantling, before distribution of the materials for their recycling. In one embodiment, the relative positioning and the sealing between the assembled elements, respectively body and end, is provided by ribs projecting from a wing and half of the transverse edge of each element, these ribs penetrating into grooves in a wing and half of the transverse edge of the member vis-à-vis, ribs and grooves being arranged in opposite manner on the opposite faces of each of the body members. During the stacking of the elements, the ribs of the elements penetrate into the grooves of other elements and ensure, in a simple manner, the sealing of the joint planes between elements. Preferably, the end face of each of the wings of the body members A and that of the end elements B comprises a rib projecting from the bearing face for the door, extending parallel to the clamping rods F and having, at each of its ends, an outgrowth capable of crashing elastically against the outgrowths of the stacked elements to ensure the continuity of the sealing barrier surrounding the opening of the body.
[0007] Advantageously and to guarantee, the respect in time of the tightness of the interior cavity, the door presents, projecting from its face coming to bear against the edge of the opening of the box, a continuous rib surrounding the barrier of sealing formed by juxtaposition of the ribs of the body elements and the end elements.
[0008] The invention will be better understood with the aid of the description which follows with reference to the appended drawing showing an embodiment of a container with lateral opening and in which: FIG. 1 is an exploded perspective view of a vertical container average capacity; Figures 2 and 3 are perspective views from the front and each side of the container of Figure 1, when its door is in the closed position; Figure 4 is a perspective view showing, on an enlarged scale, an embodiment of a body member; Figures 5 and 6 are views, in elevation and on a reduced scale, of the body member when viewed from the rear and the front, respectively; Figures 7 and 8 are views, respectively, in perspective and in plan above one embodiment of the end member; Figure 9 is a plan view over an embodiment of the clamp frame; Figures 10 and 11 are cross-sectional views on an enlarged scale showing the container when its door is in position, respectively, closing and opening with folding against the container; Figure 12 is a partial view on a very enlarged scale showing in cross section an embodiment of the hooking means of the door on the body, when these means are being drawn on the closure rod; Figure 13 is a partial view, in perspective and on a greatly enlarged scale, the hooking means of Figure 12, when in the hooking position; Figure 14 is a front elevational view of the container when its door is folded against its side wall; Figure 15 is a perspective view of the open door container, not folded. Figures 16 and 17 are partial sectional views showing, on an enlarged scale, an embodiment of the sealing means between elements; Figure 18 is a schematic front view of the box of a container showing the reciprocal contact areas of the sealing barriers formed on the body and the door; Figure 19 is a partial view on an enlarged scale and in section, out of the hinges and bearing area, a door resting against the body.
[0009] FIG. 1 shows that the container is formed by assembling the following components: - body elements A, - end elements B, - two end frames C, - a door D, - connecting rods E of the joint door on the body - metal rods F connecting the elements by clamping - hooking means G to lock the door in the closed position on the body.
[0010] The body elements A, the end elements B and the door D are made of expanded cellular material, for example expanded polypropylene, which gives them a very good coefficient of thermal insulation and, by a smooth surface skin and hard, a resistance to wear by abrasion, shock and the usual assaults in operation.
[0011] As shown in detail in Figures 4 to 6 each body element A has a generally U-shaped coated with two wings 2, forming the side walls of the container, and a core 3 constituting the rear transverse wall of the container. The ends of the wings 2 delimit the opening 1 to access the container and have a bearing surface 4 from which protrudes a rib 5, from the lower face to the upper face of the element. A bearing 6, which is vertical in this embodiment, protrudes from the bearing face at the end of each of the wings 2. It is arranged substantially at mid-height so as to leave spaces, respectively 7a and 7b, at above and below him. The core 3 of the element A, forming the rear transverse wall of the container, comprises, in its face facing the space defined between the wings 2, spaced grooves 8 extending vertically. Its back has grooves 9, while it has, in each of its two rear outer corners, at least one recess 10 which, in this embodiment, is turned upwards. Each body member A still has means for relative positioning and sealing of the junction between superposed elements. In the embodiment shown, these means are composed, on the one hand, of ribs 12h, projecting upwards from the upper edge of a wing 2 and half of the core 3, and on the other hand , ribs 12b projecting downwards from the lower face of the opposite wing 2 and the other half of the core 3.
[0012] These ribs 12h and 12b are intended to cooperate with grooves 13h and 13b opening the upper and lower faces respectively of the element, and in the extension of the ribs. Finally, each element A is traversed vertically by four vertical chimneys 14, disposed in its rear corners and in the bearings 6, bordering the opening disposed. Each end element B differs from the body elements A by the presence of a bottom 15 closing the space between the wings 2 and a return 16, forming a threshold or cap for the door D. The bottom 15 has grooves 17 parallel to its wings 2 and which are arranged to coincide with the grooves 8 formed in the portion of its core 3 facing towards the inside of the container. This element also has rib 12h and 13h grooves, but only on its side opposite the bottom 15. The return 16 extends forward for a distance allowing it to protect the entire thickness of the door coming in. support against the shoulder 4a which it is provided. The element B also has four chimneys 14 for the passage of the metal clamping rods F. The end element B may be disposed with its central cavity 35 opening upwards, as shown in FIGS. 1 and 7, or opening towards the bottom, as shown in Figure 1. As shown in Figures 1 and 9, each frame C is constituted by metal profiles 18 welded forming a reinforced frame adapted to bear against the elements B, marrying their contour. It is traversed by four holes 19 having the same distribution as the chimneys 14 of the elements A and B. The lower chassis is equipped with wheels 20. In an alternative embodiment, the upper frame is composed of two U-shaped metal sections which the place of the chassis side members shown in Figure 9. The stiffening function is the same, but the aesthetic appearance of the container is improved. The construction of a container is very fast and very easy since it consists of superimposing a number of body elements A, three in the example shown, to arrange this stack between two end elements B, reinforced by their chassis C, then to engage in the holes 19 and chimneys 14 the metal rods F, taking care to set up the connecting rods E described below. The final connection is provided by the face of nuts 22 (Figure 1) on the threaded ends of each of the four rods F. This clamping engages the ribs 12h and 12b in the grooves 13h and 13b of the elements and ensures not only the positioning of the elements , but also the connection between elements and the sealing of their joint planes. Note also that to complete this peripheral tightness, the length of the rib fragment 12h protruding from the core of the elements A and B is slightly larger than the length of the groove to receive it. Thus, during the assembly of the elements A and B, the end of the projecting rib of the upper element abuts against the end of that projecting from the lower element, to form, by elastic deformation, continuity in the sealing barrier between elements. It is the same for the ribs 5 which, as shown in Figures 16 and 17, have, at each of their ends, an outgrowth 5a forming a small projection protruding from the junction plane between elements. When clamping the fit of the stacked elements A and B, these protuberances crush elastically against the protrusions opposite to ensure the continuity of the sealing barrier 50 that the ribs 5 form around the opening 1 of the body .
[0013] Figures 4 and 7 show that each body member A and each end element B is lined internally, near its plane of junction with another element, and along its wings 2 and its core 3, by a shoulder 23 forming, with the shoulder of the element vis-à-vis, a slide 24 for the storage shelves of commodities and products to keep, as shown more particularly in Figure 14. The upper slide 24a separates in the box the space 41 for conserving the products of the space 42 for receiving the heat transfer means. This slide is used for the establishment of heat transfer means that can be constituted by a eutectic plate, a drawer containing dry ice ...
[0014] This same figure 14 shows that the grooves 8, formed in the cores 3 of the elements A and B, thus in the rear wall of the container obtained by assembling these elements A and B, and those 17 formed in the bottoms 15 of the elements B, coincide with those formed in the inner face of the door D, visible in Figure 15, to form annular channels of air circulation. These promote the movement of thermal convection currents between the upper part of the container and its lower part, improving the homogenization of the temperature of the space 41 of conservation, without resorting to any additional means, mechanical or electrical.
[0015] Finally, Figure 10 shows that the clearances 10, formed at the rear and outside of the body elements A, allow to manually enter each of the rear rods F, for example to move the container, loaded or not. This development is done at no extra cost and without modifying the insulation qualities of the container.
[0016] The door shown in Figures 1 to 3 and 10 to 15 is monolithic and has, coming from molding and on its two longitudinal edges, spaced bearings, respectively, 31 on its edge articulated on the body and 32 on the other side. These bearings 31 and 32 each receive a metal reinforcing rod, respectively 33 and 34, which extends over the height of the door, without exceeding.
[0017] The articulation links E are arranged, on the door, in spaces between bearings 31 and on the box in the intervals formed by juxtaposition of the spaces 7a and 7b between bearings 6. One of their ends is mounted free to rotate on the rod 33 of the door, while their other end is mounted free to rotate on the connecting rod F of the wings 2 of the elements A and B. The shape of the connecting rods E allows to fold the door D against the side wall of the container, as shown in FIG. 11. FIG. 13 shows that in the spaces between the bearings 32 of the door are arranged the hooks 35 of the hooking means G, means also comprising, in the embodiment shown, the rod 34 on which these hooks are fixed and a lever 36 for rotating the rod 34. Of course, the longitudinal and transverse edges of the door are defined and molded according to the shape of the walls against which they will be applied s when closing the door. With this and as shown in Figure 12, when the door is brought against the container opening its inner face 38 is close to the peripheral sealing rib 5, while the hooks 35, engaged with the rod F of the box, pull the door until it bears against the edge of the opening, as shown in Figure 10. Figure 1 shows that the door D is equipped with a magnet 39 projecting from its front face and that the body element A which is the highest is provided with a metal plate 40 embedded in a recessed housing 43. With these magnetic means, when the door D is folded against the wall of the container, as shown in Figure 11, the magnet 39 is glued to the plate 40 and ensures the maintenance of this door. FIG. 14 shows that in this position, and thanks to its 270 degree opening, the door D is compact and does not interfere with the loading or unloading of the container, and is thus less subject to shocks and friction that can to deteriorate it. In the embodiment shown in FIGS. 18 and 19, the sealing barrier 50, formed by the ribs 5 and their protuberances 5a, is supported by a rib 52 protruding from the internal face 38 of the door D and disposed on the latter so as to surround the barrier 50. Thus, under normal sealing conditions, the two barriers 50 and 52 form an air channel 53 opposing thermal transfers with the outside and, in case of loss in the barrier 50, the rib 52 alone ensures the seal and guarantees the conditions of storage of the products in the container. The ribs 5 and 52 are formed by the constituent material of the elements A and B and the door D, which has the advantage of avoiding the use of joints to be reported and increasing the cost and the manufacturing time . These ribs crash resiliently against their bearing faces by the action of the hooking means forcefully bringing the door D against the bearing faces of the container. It is specified that these hook closure means may have any other form, provided that at closing they bring the door D closer to its supports 25 It follows from the foregoing that the container according to the invention: - is composed of inexpensive elements and whose assembly requires few additional metal elements, such as various screws and fittings, or glue or polluting solvent; use a small number of components easily and quickly assembled by targeted rods providing the rigidity of the construction; uses lightweight but strong cellular materials, making it possible to save on the order of 40% by weight when empty, reducing the transportable load and the consumption of the means of transport of the containers; And provides thermal insulation at least equal to that of containers of the state of the art.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Isothermal container for the preservation of various products, this container comprising - a box of rigid insulating material having a cavity divided into a space (41) for receiving the products to be kept in temperature and in a space (42) for receiving heat transfer means - a door (D) made of insulating material applied against the opening, and locking means G of the door in the closed position, characterized in that the box is formed by stacking body elements A of insulating material and each having a generally U-shaped shape, the ends of the wings (2) delimiting the access opening (1), these body elements A being inserted between end elements B which, with the same U-section as they but closed on one side by a bottom (15), are reinforced by end frames C, metal and independent, exerting on their transverse walls a compressive force produced by clamping rods F s' tending between the two frames C and passing through the trough elements A and the end B. elements
[0002]
2. Isothermal container according to claim 1 characterized in that the door, D has in each of its longitudinal edges spaced bearings (31 or 32) in which are arranged a metal reinforcing rod (33 or 34) through the door on any its length, said door having / - on the side of its articulation on the body and in the space between bearings (31), connecting rods E whose end is articulated on its reinforcing rod (33) and the other end , on a rod F of the body, and - on the other side and in the spaces between bearings (32), fastening means (35) passing in intervals (7a-7b) between bearings of the body for hang on a rod F of this box.
[0003]
3. Isothermal container according to claim 1 characterized in that the body elements A, the end members B and the door D are made of expanded cellular material, for example expanded polypropylene.
[0004]
4. Isothermal container according to claim 1 characterized in that the relative positioning and sealing between the assembled elements, respectively, A body and end B, is provided by ribs (12h and 12b) protruding a wing (2) and half of the core (3) of each element, these ribs (12h and 12b) penetrating into grooves (13h and 13b) formed in a wing (2) and half of the soul (3) elements A or B facing each other, ribs and grooves being distributed in opposite manner on the opposite faces of each of the body elements A.
[0005]
5. Isothermal container according to claim 1 characterized in that each element, respectively cash box A and end B, is lined internally, near its junction plane with another element, and along its edges. wings (2) and its core (3), by a shoulder (23) forming, with the shoulder (23) of the element vis-à-vis, a slide (24) for receiving storage shelves commodities and products to be preserved. 5
[0006]
6.) Isothermal container according to claim 1 characterized in that each body element A comprises, in its two opposite outer corners, at the end of its wings (2) and over part of its height, a recess (10). allowing to manually enter the rod F through this angle.
[0007]
7) Isothermal container according to claim 1 characterized in that each of the two end elements B comprises, in its bottom (15) and inside the body, grooves (17) which, spaced and parallel to its wings (2), communicate with longitudinal grooves (25) formed in the inner face of the door D and with grooves (8) formed in the core (3) of the elements A and B forming annular circulation channels of the convective thermal movements.
[0008]
8.) Isothermal container according to claim 1 characterized in that the door D has projecting from its outer face a magnet (39) adapted, in the open position and folding to 270 ° against the body, to cooperate with a plate metal (40) fixed against the outer face of the body. 20
[0009]
9.) Isothermal container according to claim 1 characterized in that the end face (4) of each of the wings (2) of the body elements A and that of the end elements B comprises a rib (5) which, salient of the support surface for the door D extends parallel to the clamping rods F and has, at each of its ends, a protuberance (5a) able to crash elastically against the protuberances of the elements A or B stacked for ensure the continuity of the sealing barrier (50) that these ribs form by surrounding the opening (1) of the body.
[0010]
10.) Isothermal container according to claims 1 and 9 taken together characterized in that the door D has, projecting from its face (25) abutting against the face (4) of the body, a continuous rib (52) surrounding the sealing barrier (50) formed by juxtaposing the ribs (5) of the body members A and the end elements B.

类似技术:

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同族专利:

公开号 | 公开日

PT3110677T|2018-02-09|

EP3110677B1|2018-01-31|

US20160370082A1|2016-12-22|

WO2015124836A4|2015-12-23|

EP3110677A2|2017-01-04|

ES2658817T3|2018-03-12|

WO2015124836A2|2015-08-27|

DK3110677T3|2018-02-26|

FR3017937B1|2016-02-12|

PL3110677T3|2018-04-30|

WO2015124836A3|2015-11-19|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US4006947A|1975-11-07|1977-02-08|Whirlpool Corporation|Liner and insulation structure for refrigeration apparatus|

EP1238705A2|2001-03-07|2002-09-11|Bel-Art Products, Inc.|Modular laboratory cabinet.|

EP1860034A1|2006-05-22|2007-11-28|thermohauser GmbH|Wall for an insulating container and insulating container|

FR2907202A1|2006-10-13|2008-04-18|Andre Renard|FURNITURE REFRIGERATED EXHIBITION OF PRODUCTS AND ELEMENTS FOR ITS CONSTRUCTION|

EP2412640A1|2010-07-27|2012-02-01|Knauf Industries Gestion|Modular device for packaging heat-sensitive products|

FR2989359A1|2012-04-12|2013-10-18|Kalibox|Removable isothermal container for containing e.g. drugs, has assembling unit including sections comprising U-shaped part, each being associated with one of base, rear bottom and side panels, where U-shaped part receives edge of base panel|EP3246642A1|2016-05-19|2017-11-22|Olivo|Cryogenic tank for cooling compartment of isothermal container|

US10029718B2|2015-05-15|2018-07-24|Carlisle Foodservice Products, Llc|Modular cart|

CN105197338A|2015-09-08|2015-12-30|苏州瑞美科材料科技有限公司|Detachable thermostat|

US10967896B2|2017-01-13|2021-04-06|Alina Kravchenko|Stackable rolling cooler bins with drawers|

US10130171B2|2017-02-08|2018-11-20|Intermetro Industries Corporation|Insulated transport cabinets for food and the like|

CN107036385B|2017-04-06|2019-06-28|海信（山东）冰箱有限公司|A kind of refrigerator with humidity regulation drawer|

DE102019107098B3|2019-03-20|2020-04-30|Ulrich Klimmt|Modular furniture system|

法律状态:
2015-01-28| PLFP| Fee payment|Year of fee payment: 2 |

2015-12-28| PLFP| Fee payment|Year of fee payment: 3 |

2017-02-27| PLFP| Fee payment|Year of fee payment: 4 |

2018-02-26| PLFP| Fee payment|Year of fee payment: 5 |

2019-10-25| ST| Notification of lapse|Effective date: 20191006 |

优先权:

申请号 | 申请日 | 专利标题

FR1451461A|FR3017937B1|2014-02-24|2014-02-24|ISOTHERMIC CONTAINER FOR THE CONSERVATION OF MISCELLANEOUS PRODUCTS|FR1451461A| FR3017937B1|2014-02-24|2014-02-24|ISOTHERMIC CONTAINER FOR THE CONSERVATION OF MISCELLANEOUS PRODUCTS|

PT157108283T| PT3110677T|2014-02-24|2015-02-23|Isothermal container for the preservation of various materials|

US15/120,886| US20160370082A1|2014-02-24|2015-02-23|Isothermal Container For Preserving Of Various Materials|

ES15710828.3T| ES2658817T3|2014-02-24|2015-02-23|Isothermal container for the conservation of diverse products|

EP15710828.3A| EP3110677B1|2014-02-24|2015-02-23|Isothermal container for the preservation of various materials|

DK15710828.3T| DK3110677T3|2014-02-24|2015-02-23|Isothermal container for preservation of various materials|

PCT/FR2015/000038| WO2015124836A2|2014-02-24|2015-02-23|Isothermal container for preserving of various materials|

PL15710828T| PL3110677T3|2014-02-24|2015-02-23|Isothermal container for the preservation of various materials|

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