巴西专利BR112013020972B1 refrigeration utensil

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REFRIGERATION UTENSIL The invention relates to a refrigeration utensil (1) including a body (2) in which a cooling compartment (3) is defined and a door (4) connected to said body to open and close said compartment, and a height adjustable support set (10,10,100) connected to said body and / or said door. The cooling tool (1) further comprises a rail (23a, 23b; 23a; 23b;) including a rack portion (21) attached to said body (2) within said compartment (3) and / or to said door ( 4), the rail extending substantially along a vertical geometric axis. The height-adjustable support set (10,10,100) comprises; a support member (11; 11; 11 ") to support old ones to be cooled / frozen; a height adjustment gear (15a 15b) rotatably connected to the support member (11; 11; 11"), the gear intertwining with u, the rack portion (21) so that the support member can be moved vertically along the rail (23a, 23b; 23a; 23b;): a one-way stop unit (19; 70) to regulate the height adjustment gear rotation (15a, 15b) when interlaced with the rack portion (21) allowing upward movement of the support member (11.11: 11 ") along the vertical geometric axis and locking o (. ..).
公开号:BR112013020972B1
申请号:R112013020972-0
申请日:2012-02-09
公开日:2021-01-12
发明作者:Federico Baldo
申请人:Electrolux Home Products Corporation N.V.；
IPC主号:

专利说明:

[0001] [001] The present invention relates to a utensil for refrigeration that comprises walls that define a refrigerator compartment and a door to close it. The refrigeration utensil includes at least one support member for supporting articles in the refrigerator compartment and / or a support member for the same purpose attached to the door. The height (s) of the support member (s) is (are) adjustable in a relatively easy way. BACKGROUND OF THE INVENTION
[0002] [002] Refrigerators define inside a refrigerator compartment for the storage of articles to be refrigerated or frozen, which is usually subdivided into sub-compartments by means of vertically separated shelves. Regardless of the effective size of the sub-compartments, it has always been desired to provide a rational use of the internal space of the utensil for refrigeration, in order to maximize the usable space for storing articles. Due to the fact that the size of these articles can vary widely, it is also desirable that the usable space can be adapted and renovated according to different needs (for example, addition, removal or replacement of articles).
[0003] [003] As stated, refrigerators generally comprise shelves to receive refrigerated or frozen products that are attached to the walls of the refrigerator compartment by means of support elements. For the aforementioned reason, it is desirable to be able to control their vertical positioning in an easy way.
[0004] [004] Shelves for supporting articles are also usually attached to one side of the internal door of the refrigerator compartment. As discussed above in relation to the compartment shelves, the door shelves are preferably adjustable along the vertical direction in order to increase the useful space by changing the spacing between shelves according to the dimensions of the articles.
[0005] [005] In the prior art, the existence of shelves is known, to be either fixed inside the compartment or attached to the door, which are supported by a plurality of projections, whose number is greater than the number of shelves in order to have the possibility to adjust their position on the vertical geometric axis. This type of adjustment is not practical because all items on the shelf must be removed before the adjustment operation is carried out.
[0006] [006] The need for height-adjustable shelves that do not need to be removed from the chiller to change their vertical position is therefore intensely felt in this field and several solutions have been proposed.
[0007] [007] US 5913584 in nomed eWhite Consolidated Industries describes a vertically adjustable shelf for a refrigerator that includes a mounting assembly that cooperates with a pair of vertically extending rails to position the adjustable shelf in a plurality of predetermined positions, one support set is carried by the assembly set and can be moved with respect to the assembly set so that the support set can be positioned in each position among the plurality of predetermined positions, and an encapsulated shelf carried by the support set. The mounting set has a pair of vertical racks and a pair of groove mounting arms that fit into the grooves. The mounting assembly includes a button located centrally at a front end of the shelf and a gear box connecting the button with the rack gears so that the support assembly moves with respect to the mounting assembly when the button is rotated.
[0008] [008] The invention described in US 5199778 in the name of Matsushita Refrigeration Company relates to a shelf apparatus for a refrigerator that suspends and lowers shelves 1 for storing food from the refrigerator in a similar manner, making it possible to determine the positions of shelves 1 in largely according to the size of the food items stored inside the refrigerator. More particularly, racks 14b are provided on the left and right sides of the interior of the refrigerator 12, gears 5 that fit on these racks 14b are provided on the shelves 1 of the refrigerator, and the food storage shelves 1 are suspended and lowered by the rotation of these gears 5 .
[0009] [009] The document US 71788890 in the name of LG Electronics is related to a shelf height adjuster for a refrigerator. According to the present invention, gear portions are formed vertically on both side surfaces in a refrigerator refrigeration chamber. Gears for height adjustment that are fitted to the gear portions are rotatably installed on opposite sides of a shelf, respectively. Each stop to regulate the rotation of each height adjustment gear is attached to the height adjustment gear by means of a spring, so that it prevents the height adjustment gear from turning. When the height of a shelf is adjusted, the height adjustment gears are rotated freely by releasing the stops of the height adjustment gears, and thus the height of the shelf can be adjusted without removing the shelf. from the refrigerator.
[0010] [010] US 6065821 in the name of Maytag Corporation describes an adjustable shelf that is capable of being initially attached to the support structure within a furniture storage area at any one of a plurality of vertical heights and can then be readily and mechanically adjusted to reposition the shelf as desired. In one embodiment, the shelf includes a pair of toothed wheels that are fitted into corresponding slots formed in a pair of similarly constructed and laterally spaced support rails positioned within the cabinet. The drive arrangement for the sprockets can be driven manually, electrically, or otherwise to provide multiple adjustments for the vertical shelf. When an electric motor is used as a drive source, the motor is preferably mounted on a rack structure and electrical energy is transmitted to the motor, at least in part, through the support rail structure. In addition, the adjustable shelf carries at least one travel limiting member that can be positioned or in a position of use, where the travel limiting member ensures that the sprockets are kept in place with the support rails, or on a release position, where the shelf can either be removed from the rails or mounted on them. In addition, support rails are preferably constructed to accommodate various types of shelves in order to present a more universal, and comprehensive, shelf assembly. The document KR2010085252 describes a device for height control for the shelf of the refrigerator, has a rack gear installed on an internal wall of the refrigerator, a pinion gear connected to the rack gear, and a transmission unit to propel the pinion gear to move the shelf in upward and downward directions. A height control device for a refrigerator shelf comprises a rack gear that is installed in the longitudinal direction on both internal sides of a refrigerator, a shelf that includes a pinion gear fitted to the rack gear, and a member of drive that drives the pinion gear so that the shelf moves up and down along the rack gear by sliding and which is a drive shaft on which a worm gear is formed that transfers torque to the pinion gear . A threaded part is formed in the circumference of the longitudinal direction of the drive shaft. The threaded part is combined with a movable lever that rotates the drive shaft in a linear motion.
[0011] [011] The document KR 2009125317 on behalf of LG Electronics refers to a shelf unit for the refrigerator, has a structure installed on two sides of the shelf, and a transmission mechanism connected to the operating device, where the shelf is moved up and down according to the manipulation of the operating device. A refrigerator and refrigerator shelf apparatus are provided to improve the external appearance by installing a transfer mechanism and an operating mechanism within a structure. The structures are fixed on both sides inside the refrigerator, as if leaving a space for the shelf. The operating mechanism is provided for at least one of the structures on both sides, and operated up and down. The transfer mechanism is connected to the operating mechanism within the structure, and supports one side of the shelf. According to the manipulation of the operating mechanism, the shelf moves up and down. DESCRIPTION OF THE INVENTION
[0012] [012] The present invention relates to a utensil for refrigeration comprising a body in which a compartment for cooling articles is defined, and a hinged door in the body for opening and closing the compartment. The cooling tool comprises at least one support set whose position is adjustable along the vertical direction, in a manner better described below. This support set can be either the so-called “furniture support set”, that is, including a support member, which is positioned inside the compartment, or a “door support set”, that is, including a support, which is connected to the utensil door.
[0013] [013] For the purposes of the present invention, "support member" means a shelf or other member, such as a drawer, tray or hook, suitable for supporting food items or other types of items typically stored in a fridge or freezer.
[0014] [014] Support members are generally moved by users by hand, by applying an appropriate force (for example, pushing, pulling or turning) in adjustment means capable of regulating the height of the shelf. Generally, in common use of the utensil, a user opens the refrigerator and, holding an article to be refrigerated in his hand, realizes that the space between the support members is not suitable for the article he / she is holding and therefore , decides to change the spacing between the shelves. Due to the fact that the user has his hand occupied, it is desirable to have a support member that can be moved along the vertical direction upwards or downwards, using only one hand. In addition, one of the risks of moving the support member along a vertical direction, particularly when the support member is full, is that the support member tilts - for example, because the force applied to the support member to move it is not evenly distributed over the relatively wide extension of the limb - and the supported articles can fall to the floor.
[0015] [015] The support set of the present invention does not need to be removed from the utensil to adjust its height: to obtain vertical adjustment, the support member slides substantially along a track (s) attached to the utensil; in particular the track includes a rack portion interlaced with a gear that is connected to the support assembly. This interlocking of rack and pinion gear allows vertical movement of the support member along a straight line. In addition, according to a characteristic of the invention, the support assembly is constructed in such a way that it can be moved up and down along the vertical direction using one hand. This is done thanks to a unidirectional mechanism that controls the rotation of the gear and allows the movement of the support member in one direction by means of an impulse, that is, it allows the upward movement of the support member when a force pointing towards the top is applied to the support member itself, and it blocks its downward movement. The unidirectional mechanism operates in conjunction with a lever, the lever disengages the unidirectional mechanism when activated, for example, when being pushed, so that movement down the support member is possible.
[0016] [016] Furthermore, according to a preferred embodiment of the invention, the risk of tilting the support member of the invention while moving it to change its height is minimized. In fact, preferably the utensil for cooling comprises two rails, each including a rack portion, and the support member also includes two gears, each gear coupled to a rack portion in the aforementioned braid, and the two gears are connected by an axis so that the rotation of any of the two gears also implies a rotation of the other two gears, so that on both sides of the support member the vertical movement is the same. BRIEF DESCRIPTION OF THE FIGURES
[0017] - a figura 1 é uma vista em perspectiva de um utensílio para refrigeração incluindo um conjunto de suporte de móvel construído de acordo com a presente invenção; - a figura 1a é um corte transversal frontal de uma porção do utensílio para refrigeração da figura 1; - a figura 2 é uma vista em perspectiva parcialmente explodida do conjunto de suporte de móvel incluído no utensílio das figuras 1 e 1a; - a figura 3 é uma vista em perspectiva explodida do conjunto de suporte de móvel da figura 2; - a figura 4 é uma vista frontal do conjunto de suporte de móvel das figuras 2 e 3; - a figura 5 é um corte transversal do conjunto de suporte de móvel ao longo da linha B-B da figura 4; - a figura 6 é um corte transversal ao longo da linha E-E da figura 4 do conjunto de suporte de móvel; - a figura 7 é um corte transversal ao longo da linha A-A da figura 4 do conjunto de suporte de móvel; - a figura 8 é um corte transversal ao longo da linha C-C da figura 5 do conjunto de suporte de móvel; - as figuras 9a e 9b são dois cortes transversais ao longo da linha D-D da figura 5 de um detalhe do conjunto de suporte de móvel em uma posição encaixada onde os movimentos para baixo do membro de suporte estão bloqueados, e em uma posição não-encaixada onde os movimentos para baixo dos membros de suporte são permitidos, respectivamente; - a figura 10 é um corte transversal ao longo da linha D-D da figura 5 do conjunto de suporte de móvel; - a figura 11 é uma vista em perspectiva de uma segunda modalidade de um conjunto de suporte de móvel construído de acordo com a invenção; - a figura 12 é uma vista em perspectiva explodida da segunda modalidade do conjunto de suporte de móvel da figura 11; - a figura 13 é uma vista em perspectiva de um detalhe do conjunto de suporte de móvel das figuras 11 e 12; - a figura 14 é uma vista em perspectiva de um detalhe adicional do conjunto de suporte de móvel das figuras 11 e 12; - a figura 15 é uma vista em perspectiva parcial de uma porta para um utensílio para refrigeração incluindo um conjunto de suporte de porta construído de acordo com a presente invenção; - a figura 16 é uma vista em perspectiva explodida da porta e do conjunto de suporte de porta da figura 15; - a figura 16a é uma vista em perspectiva parcial parcialmente em corte da porta, do conjunto de suporte de porta e do trilho do conjunto de suporte de porta das figuras 15 e 16; - a figura 17 é uma vista em perspectiva do conjunto de suporte de porta e das figuras 15, 16 e 16a; - as figuras 18a-18b são vistas em perspectiva de várias etapas para a montagem dos trilhos do conjunto de suporte de porta das figuras 15-17 em uma porta para utensílios para refrigeração; - a figura 19 é uma vista em perspectiva de um detalhe do conjunto de suporte de porta da figura 17 em uma primeira posição operativa (encaixada); - a figura 20 é uma vista em perspectiva do mesmo detalhe do conjunto de suporte de porta da figura 19 em uma segunda posição operativa; - a figura 21 é uma vista em perspectiva em uma escala aumentada de outro detalhe do conjunto de suporte de porta da figura 17; - as figuras 22a e 22b são duas vistas parciais em perspectiva de um detalhe para um trilho para fixação do conjunto de suporte de móvel das figuras 1-3 no corpo da geladeira em uma primeira e uma segunda posições operativas; - as figuras 23a e 23b são duas vistas em perspectiva de outra modalidade de um conjunto de suporte de móvel de acordo com a invenção; - as figuras 24a e 24b são duas vistas em perspectiva de outra modalidade adicional de um conjunto de suporte de móvel de acordo com a invenção. [017] The invention will be described below in a non-limiting example based on the attached drawings. The figures show: figure 1 is a perspective view of a cooling appliance including a furniture support assembly constructed in accordance with the present invention; figure 1a is a front cross-section of a portion of the cooling tool of figure 1; figure 2 is a partially exploded perspective view of the furniture support set included in the utensil of figures 1 and 1a; figure 3 is an exploded perspective view of the furniture support assembly of figure 2; figure 4 is a front view of the furniture support assembly of figures 2 and 3; figure 5 is a cross section of the furniture support assembly along the BB line in figure 4; figure 6 is a cross section along the line EE of figure 4 of the furniture support assembly; figure 7 is a cross section along line AA of figure 4 of the furniture support assembly; figure 8 is a cross-section along the line CC of figure 5 of the furniture support assembly; figures 9a and 9b are two cross-sections along the line DD of figure 5 of a detail of the furniture support assembly in an engaged position where the downward movements of the support member are locked, and in an unengaged position where downward movements of the support members are allowed, respectively; figure 10 is a cross-section along the line DD of figure 5 of the furniture support assembly; figure 11 is a perspective view of a second embodiment of a furniture support assembly constructed in accordance with the invention; figure 12 is an exploded perspective view of the second embodiment of the furniture support assembly of figure 11; figure 13 is a perspective view of a detail of the furniture support set of figures 11 and 12; figure 14 is a perspective view of a further detail of the furniture support assembly of figures 11 and 12; figure 15 is a partial perspective view of a door for a cooling appliance including a door support assembly constructed in accordance with the present invention; figure 16 is an exploded perspective view of the door and the door support assembly of figure 15; figure 16a is a partial perspective view partly in section of the door, the door support assembly and the rail of the door support assembly of figures 15 and 16; figure 17 is a perspective view of the door support assembly and figures 15, 16 and 16a; figures 18a-18b are seen in perspective of several steps for assembling the rails of the door support set of figures 15-17 on a door for refrigeration utensils; figure 19 is a perspective view of a detail of the door support assembly of figure 17 in a first operating position (engaged); figure 20 is a perspective view of the same detail of the door support assembly of figure 19 in a second operating position; figure 21 is a perspective view on an enlarged scale of another detail of the door support assembly of figure 17; figures 22a and 22b are two partial views in perspective of a detail for a rail for fixing the furniture support set of figures 1-3 on the refrigerator body in a first and a second operating positions; figures 23a and 23b are two perspective views of another embodiment of a furniture support assembly according to the invention; figures 24a and 24b are two perspective views of another additional embodiment of a furniture support set according to the invention.
[0018] [018] In the figures, the elements that are identical or perform the same function have the same reference numeral. In addition, the figures in some cases are very simplified and elements are removed to increase their clarity in order to better show and describe the present invention.
[0019] [019] With reference initially to figures 1 and 1a, a cooling tool includes a body 2, in which a cooling compartment 3 is defined, and a door 4 that can be opened or closed to access or close the cooling compartment. 3 in a conventional manner. For example, door 4 can be articulated to body 2 of the refrigerator by means of hinges (not shown).
[0020] [020] In addition, the cooling tool 1 includes at least one support set whose position can be adjusted along the vertical geometric axis. The support set can be either a furniture support set, that is, an assembly including a support member mounted inside the refrigerator compartment 3, or a door support set, i.e., a support set including a member of support fixed on the side of door 4 facing compartment 3. Next, to differentiate the two different different support assemblies that use the same teaching of the invention, the reference numeral 10 or 10 'indicates a support set of mobile, while 100 indicates a door support assembly.
[0021] [021] In addition, in the following, particular reference will be made to shelves as a preferred example of support members, but other types of support members will also be shown.
[0022] [022] The cooling tool 1 may include one or more of the furniture / door support assemblies according to the invention and one or more fixed shelves, that is, shelves whose height cannot be modified, and / or shelves that can be modified according to the teachings of the prior art.
[0023] [023] In all figures, with the exception of the support set 10, 10 ’, 100, other elements and / or details of the cooling tool are not shown and are known to be known in the prior art.
[0024] [024] In addition, the cooling tool 1 could include more than one cooling compartment 3 and thus more than one door 4 (for example, two doors, as in figure 1), the additional doors being similar or different from the one described here. In addition, the meaning of “utensil for refrigeration” includes refrigerators and freezers.
[0025] [025] The cooling tool 1 includes walls surrounding and defining the cooling compartment 3, in particular it includes two first and second opposite side walls 22a, 22b, floor and ceiling walls 22c, 22d also opposite and a rear wall 22e substantially perpendicular to the side walls 22a, 22b. The rear wall 22e is substantially facing door 4 when it is closed to seal compartment 3, in a manner known in the art. As an example, the compartment walls can be molded integrally from a lining.
[0026] [026] Within compartment 3, at least one rail is mounted on a wall in a substantially extended configuration in the vertical direction. The track could be shown on one of the side walls 22a, 22b on the rear wall. According to a preferred embodiment of the invention, the cooling tool 1 comprises first and second tracks 23a, 23b facing each other, the first (second) track 23a (23b) being mounted on the first (second) side wall 22a (22b). It has to be understood that according to a different embodiment of the invention, not illustrated in the drawings, the two tracks can both be attached to the rear wall of the tool 1 at a given distance from each other.
[0027] [027] The rails 23a, 23b can support all height-adjustable furniture support mounts 10, 10 'present in the cooling appliance 1, or the appliance 1 can comprise a plurality of pairs of rails and each support set with height adjustable tool in tool 1 can be connected to a different pair of rails. All intermediate possibilities are also included in the present invention, that is, a pair of rails is used for some, but not for all height-adjustable furniture support assemblies present in the cooling tool 1. Therefore, tool 1 can include a single pair of rails vertically mounted in the compartment 3 that substantially extends the entire length thereof, or it may comprise a plurality of pairs of rails facing each other and positioned on top of each other along two parallel vertical lines, forming thus two vertical columns.
[0028] [028] As best seen in figure 6, each rail 23a, 23b includes a guide member 25, bounded by vertical walls (not identified) defining a seat, which extends substantially parallel to the vertical extension of the rail 23a, 23b. The guide 25 comprises on a wall a rack portion 21 having a plurality of teeth 24 vertically separated and extending laterally. In each guide member 25, in particular with the seat defined by its walls, a gear mounted on the support assembly is inserted, as further detailed below. The teeth 24 are arranged substantially perpendicular to the wall 22a, 22b to which the rail 23a, 23b is attached. However, the specific positioning and orientation of the rack portion 21 may be different from those shown in the drawing, as long as it can be fitted to the mentioned gear present in the support assembly.
[0029] [029] Rails 23a, 23b are preferably whole pieces and are manufactured by molding a thin sheet of plastic or metal. According to a preferred embodiment of the invention, rails are attached to an inner lining of the cooling compartment 3 as follows. With reference to figures 22a and 22b, an indentation 26 having a non-circular opening is formed in the vicinity of both ends of the rail 23a, 23b (only one end of the rail 23a is visible in the mentioned figures) and corresponding indentations (not visible in the drawings) are formed in the inner lining of compartment 3, for example, these indentations can be thermoformed in the lining. To secure the rails 23a, 23b to the ceiling, a screw 27 having a head 28 and a cam-like termination 29 is inserted into the recess 26 (see figure 22b) and the overlapping recess formed in the ceiling: the cam-like termination 29 can enter in the recess opening 26 only when it is aligned along a first orientation. When inserted, by a rotation of the head 28 with a suitable tool, such as a coin (for example, by means of a slot 28a formed in the head 28). The cam-like termination 29 is aligned in a different orientation and thus interferes with the edges of the recess 26 opening and the screw 27 cannot leave the recess 26 (and the corresponding indentation in the ceiling), thereby fixing the rail in the ceiling. This simple fixation allows easy removal of the rail from compartment 3 for cleaning purposes.
[0030] [030] Other fastening means, such as standard screws or rivets, can be used in a different form of the invention to secure the rails to the ceiling.
[0031] [031] According to an embodiment of the invention illustrated in figures 2-6, one of the tracks 23a, 23b (track 23a in the illustrated example) comprises a plurality of projections 30 (see in particular figure 5). If only one rail is present, that rail can be provided with projections 30.
[0032] [032] The projections 30 are vertically spaced from one another and substantially aligned one on top of the other forming substantially a "ladder", which is arranged parallel to the guide member 25. The rack portion 21 and the plurality of projections 30 extend substantially by the same portion of rail 23a. Each projection 30 extends from the rail 23a towards the interior of the compartment 3. As seen clearly in the section of Figures 9a, 9b and 10, the projections 30 are substantially in the form of inverted semi-pyramids, that is, each projection comprises a flat plate 31 disposed perpendicular to the vertical extension of the rail 23a and substantially parallel to the ceiling / floor walls 22c, 22d. Two vertically separated consecutive plates 31 are connected by an inclined wall 32 connecting the innermost edge of the lower plate to the outermost edge of the upper plate. In this way an indentation 30a is defined between two adjacent projections 30 (see enlarged views of figures 9a and 9b).
[0033] [033] According to a different modality of a furniture support set 10 'of the invention, now with reference to figures 11-14, the rails 23a, 23b do not include the plurality of projections 30. The difference between the functioning of the two modalities will be explained below. Returning to the mode of figures 2-10, the furniture support set 10 includes a support member, in the example shown, a platform shelf 11, made of any suitable material such as plastic glass or wire, which can also include a structure (not shown) surrounding the shelf 11 completely or partially, that is, only one or more sides of the shelf can be attached to the structure. The shelf 11 defines two opposite side regions 11a and 11b, as well as a front side 11c and a rear side 11d. When in use, that is, when stuck within compartment 3, the shelf 11 is positioned substantially parallel to the floor / ceiling walls 22c, 22d and the side regions 11a, 11b are connected to the respective side walls 22a, 22b.
[0034] [034] It should be understood that the platform shelves are just an example of a support member that can be used in the utensil of the invention, and different types of support members, such as a storage tray 11 'as illustrated in figures 23a and 23b, a hook 11 ”for hanging various items as illustrated in figures 24a and 24b, a drawer (not shown) or other types of shelves can be used as well.
[0035] [035] The furniture support set 10 further includes mounting elements 13 comprising at least one sheave and a gear for connecting the shelf 11 to the cooling compartment. More preferably, the mounting elements 13 include two pulleys 14a, 14b and two gears 15a, 15b located substantially in the two opposite side regions 11a, 11b of the shelf 11. In the following, only the embodiment including two pulleys and two gears will be described, but a different mode including a single gear / pulley pair or more than two gears / pulleys is also possible.
[0036] [036] In addition, if one or more rails are attached to the rear wall of the cooling tool 1, the pulley or pulleys (one pulley for each rail) is (are) attached to the rear side 11d of the shelf.
[0037] [037] According to a different embodiment of the invention, the shelf 11 and the pulleys 14a, 14b are one piece and they are molded, for example, in plastic.
[0038] [038] Each pulley 14a, 14b is coupled to one of the sides 11a, 11b of the shelf 11, for example, pulley 14a, 14b includes two opposite parallel pairs of flaps 97a, 97b between which the shelf 11 is inserted and secured. In addition, the pulley extends vertically substantially perpendicular to the shelf 11 and substantially parallel to the vertical extension of the tracks. The cross section of each pulley along a plane parallel to the shelf 11 is U-shaped and has a dimension that interlaces with one of the rails, so that each pulley 14a, 14b can be fitted outside a corresponding rail 23a, 23b in order to allow vertical sliding movement of the shelf 11 and at the same time to limit and prevent relative movements in the other directions. In other words, each U-shaped pulley contains the outer edges of the corresponding rail in order to make it fit.
[0039] [039] Preferably, a stop element, such as a projected tooth 17, is positioned at the lower end of the rail 23a, 23b, in order to block the slide of the pulley at the end of the rail and prevent accidental removal of the pulley from the rail. Each pulley comprises a hollow opening 16 (see figure 3 where only the opening in the pulley 14b is shown), the two openings - one per pulley - being aligned so that they are facing each other.
[0040] [040] Preferably, a stop element, such as a projected tooth 17, is positioned at the lower end of the rail 23a, 23b, in order to block the slide of the pulley at the end of the rail and prevent accidental removal of the pulley from the rail. Each sheave also comprises a hollow opening 16 (see figure 3 where only the opening in sheave 14b is shown), the two openings - one per sheave - being aligned so that they are facing each other.
[0041] [041] The gears 15a, 15b are connected by an axis 18 so that the rotation of either of the two gears implies a similar rotation of the other of the two gears. Preferably, the gears 15a, 15b are mounted on the two opposite ends of the shaft 18. The shaft 18 is coupled to the shelf 11, in particular, it is rotatably attached to the two pulleys 14a, 14b, so that it follows the vertical movements shelf 11 and, at the same time, that it can rotate along its geometric axis. Preferably, a cover 20 for the shaft (see figures 7 and 8) covers the shaft 18 during its turns, so that objects and clothing do not get caught, or that users are not injured. The length of the shaft 18 is substantially equal to the width of the shelf 11, or slightly larger, so that when assembled substantially parallel to the shelf 11, it passes through the two pulleys 14a, 14b via openings 16. In this way, the gears 15a , 15b can fit the rack portions 21 of the rails. However, despite the details of mounting the shaft 18 with respect to the shelf 11, an important aspect is that the shaft 18 is supported by pulleys 14a, 14b for relative rotation around a geometric axis defined by the shaft itself and the gears rotate evenly with axis 18. This can be achieved in many ways; in the present embodiment, for example, a trunnion (not shown) can be mounted in each of the openings 16.
[0042] [042] In fact, in case the support set 10 is not a platform shelf as in this illustrated embodiment, but, for example, a container tray, the axis 18 may be longer than the width of the tray.
[0043] [043] The pulleys 14a, 14b and gears 15a, 15b are substantially parallel to each other. The relative lengths of the shelf 11, pulleys 14a, 14b and axis 18 are such that when the two pulleys 14a, 14b and the axis 18 are coupled to the rails 23a, 23b, each gear 15a, 15b being inserted into the corresponding guide portion 25 including the rack portion 21.
[0044] [044] With this construction it should be clear that the vertical movements of the shelf 11 are caused by the rotation of the two gears 15a, 15b in the rack portions 21 located on the tracks 23a, 23b. The inclination of the shelf is prevented by the simultaneous movement of the two gears 15a, 15b that are connected by the axis 18, regardless of the point at which a force is applied to the shelf 11 to move it.
[0045] [045] It is evident that there is also a need for a limiting element that controls the movement of axis 18 which, by the force of gravity, if it were not so, it would be immediately limited to establish itself in the lowest position allowed by rails 23a, 23b to which it is connected to. The support set 10 includes a unidirectional stop unit which, when engaged, allows the shelf to move in only one direction, that is, it allows upward movements of the shelf 11, but blocks downward movements of the shelf. In order to move the shelf 11 down too, the one-way stop unit must be detached. The type of stop unit is what differentiates mode 10 from figures 2-10 and 23a-24b, from the mode illustrated in figures 11-14 and identified as 10 ’. Next, modality 10 will be described first.
[0046] [046] One of the pulleys 14a, 14b (pulley 14a in the illustrated embodiment), or all of them, includes (in) said unidirectional stop, in particular includes a resilient element, in embodiment 10 a clamp 19 made of elastic material, preferably material plastic.
[0047] [047] Preferably, the clip 19 is located within a seat 40 formed in the pulley 14a, as shown in figures 9a, 9b. The clamp 19 has the functions of a spring locking element that fits between the indentations 30a formed between projections 30 in order to block the displacement of the shelf along the vertical geometric axis. The clamp 19 can thus be compressed and decompressed in order to be engaged / disengaged from the recess 30a. The clamp 19 includes a substantially V-shaped element having a first and a second branch 19a, 19b, which can be elastically compressed in order to reduce the spacing between them. The tip 19c of the V-shaped element has a wedge-like shape and protrudes from the surface of the sheave that faces rail 14a. When the support assembly 10 is mounted on the rails 14a, 14b, the location of the clamp 19 is such that the point 19c can be inserted between the projections 30, that is, the clamp 19 faces the sequence of projections so that the tip 19c can be housed in one of the recesses 30a.
[0048] [048] In greater detail, the support set 10 can be mounted in compartment 3 by coupling the two pulleys 14a, 14b with the two rails 23a, 23b and being vertically positioned by sliding it. In order to lock the support assembly 10 in a given vertical position, that is, to prevent the shelf 11 from moving downwards by gravity, the tip 19c of the clip 19 is placed in the indentation 30a formed between two adjacent projections 30 corresponding to the given position. Downward movements of the shelf 11 are therefore not permitted: sliding of the pulley 14a on the rail 23a is not possible because the tip 19c contacts the plate 31 of the projections 30. However, by applying an impulse to the support set 10, for example , on the shelf 11, that is, by applying upwardly oriented force on the shelf 11, the support assembly 10 can slide upwards as detailed below.
[0049] [049] The first and second branches 19a, 19b, which at one end converge to the point 19c, at their opposite ends are projecting respectively from a surface of the pulley 14a opposite the surface from which the point 19c emerges ( first branch 19a) and attached to the pulley 14a at a point within seat 40 (second branch 19b). The second branch 19b, which is attached to the pulley 14a for a certain portion of its length, in an operating condition (see figure 9a) runs substantially along the inclined wall 32 between two adjacent projections 30. As mentioned, the clamp 19 is elastic and it can be compressed: by applying an upward thrust on the shelf 11, due to the fact that between two adjacent plates 31 the inclined wall 32 is present, the latter slowly compresses the second branch 19b clamp 19, which is thus forced to bend, to retreat to seat 40 and slide over the next projection 30.
[0050] [050] This configuration, that is, the configuration in which the tip 19c is inserted in the indentation 30a between two projections 30, is the so-called “embedded configuration” of the unidirectional stop unit and is shown in figure 9a.
[0051] [051] It is also desired to obtain vertical movements of the shelf 11 in the downward direction, not just in the upward direction as described above. In this regard, the one-way stop unit also includes a lever 50 attached to at least one of the two pulleys 14a, 14b, and in particular to the pulley on which the clamp 19 is mounted. The support point of the lever 50 is hinged on the surface of the lever 14a from which the branch 19a emerges. As shown in figures 7, 9a and 9b, the lever 50 includes an operating cable 51 and a contact portion 52, which cooperates with the branch 19a of the clip 19 to disengage the unidirectional stop unit and allows the downward movement of the shelf 11. As mentioned, the first branch 19a, with its free end, protrudes from the surface of the pulley 14a below the shelf 11 (although the specific positioning of the clamp 19, that is, whether it is located above or below the shelf, has not relevance to the invention) and contacts the top of contact portion 52 of lever 50. Therefore, by operating lever 50, for example, by moving lever 50 upwards using cable 51, it is possible to move the first branch 19a upwards and consequently compress the two branches 19a, 19b of the V-shaped element. Due to the upward movement of the branch 19a, the tip 19c recedes into the seat 40 and is no longer engaged in the indentation 30a formed between the two projections 30 (see the configuration in figure 9b with the tip 19c substantially retracted completely into the seat 40). The stop unit is thus moved from the engaged position to an undocked position, as shown in figures 9a (engaged) and 9b (disengaged) by the action of lever 50. In the disengaged position, the absence of a stop allows free vertical movements of the shelf 11, obviously both up and down, due to the sliding of the pulleys 14a, 14b on the rails 23a, 23b.
[0052] [052] The disengagement of the clip 19 from the projections 30 can cause a sudden vertical fall of the shelf 11, particularly when it is loaded. In order to avoid this dangerous rapid descent, a brake device 60 (see figures 7 and 8 or the second embodiment of figure 12) is included in the support set 10. The brake device can be any travel limiting element, for example , an element using frictional forces, which slows downward movement of the shelf 11. As an example, the brake device 60 can be an insulating ring (see figure 12) that is attached to one of the pulleys 14a, 14b (or more than one insulating ring can be used) that work coaxially with the 18 axis. The size of the insulating ring is calibrated to obtain a frictional force opposite to the rotation of the 18 axis: the frictional force, therefore, creates an opposite force by slowing down the movement downwards that is obtained when lever 50 is operated.
[0053] [053] With reference now to the support set 10 ’of figures 11-14, the main differences between the two modalities 10, 10’ are in the construction of a unidirectional stop unit. In the support set 10 ', there are no projections 30 or clamp 19, the stop unit includes a unidirectional gear wheel 70 whose teeth are interlaced with another gear part present in the lever 50 and which will be better described below.
[0054] [054] The sprocket 70 is mounted coaxial to the gears 15a, 15b on the axis 18 and rotates with them. Preferably, the sprocket 70 is mounted close to the gear 15a. The sprocket 70 includes a plurality of asymmetric teeth 71 (see figures 13 and 21) exerting an asymmetric torque: the teeth in cross section are substantially hook-shaped and the lever 50 includes at least one chamfer 72 whose shape substantially matches the shape of teeth 71.
[0055] [055] As in the form of the support set 10, the support point of the lever 50 is articulated on the surface of the pulley 14a opposite the rail 23a. Lever 50 includes a head 73 comprising a chamfer 72 (see figure 12 and - in particular - the enlarged detail of figure 13), which operates in conjunction with the sprocket 70, in particular the sprocket 70 and the head 73 fit together each other. Therefore, in case of rotation in one direction - which is chosen by mounting the unidirectional sprocket 70 on the axis 18 to be the rotation corresponding to the upward movement of the shelf 11 - the lever head 73 slides on the wheel 70, while in the case of rotation in the opposite direction, the tooth-like fit 71 with the chamfer 72 blocks any downward movement of the shelf 11. Therefore, as in the above-described embodiment 10, applying an impulse to the shelf causes the gears 15a, 15b to rotate in the rack portions 21 and thus rotations of the sprocket 70 which slides in the head 73 which in turn implies an upward movement of the shelf 11. The condition in which the sprocket 70 is engaged in the lever head 73 is the engaged condition of the unidirectional stop unit and is illustrated, for example, in figure 13.
[0056] [056] As in mode 10, it is possible to operate lever 50, for example, by pulling cable 51 upwards, so that the unidirectional wheel 70 is detached from the chamfer 72 on the head 73. When the socket is removed, there is no obstacle free sliding of the pulleys 14a, 14b on the rails 23a, 23b and, therefore, of vertical movements of the shelf 11. In addition, also in this embodiment, a brake device 60 (see figure 12) is provided to slow down movements.
[0057] [057] Therefore, according to the invention, with a simple push on the shelf 11 of the support set 10 or 10 ', regardless of the position where the said push is applied, the shelf 11 can be easily moved upwards using only one hand and without the need to operate any device. In the case of the support assembly 10, the thrust forces the clamp 19 to compress, disengaging the tip 19c from the recess 30a and the shelf 11 moves from one projection 30 to the next projection. The minimum distance between two different vertical positions of the shelf 11 is thus the vertical distance between two different projections 30, in particular the distance between plates 31. In the case of the 10 'mode, the impulse forces the unidirectional wheel 70 to slide on the head 73 of the lever 50, thus allowing upward movement. The minimum distance between two different vertical positions of the shelf 11 is thus determined by the pitch of the teeth 71 of the sprocket. The detachment of the stop unit allows the downward movement of the shelf 11: in both cases the detachment is achieved by operating the lever 50 which or forces the tip 19c to disengage from the indentation 30a between the projections 30 (mode 10) or detaches the head 73 from the unidirectional gear 70 (10 'mode).
[0058] [058] So far, two different types of furniture support assemblies 10, 10 'have been described, however the teaching of the present invention can also be applied to door support assemblies 100, that is, support assemblies that are connected to the appliance door for cooling 1.
[0059] [059] As illustrated in figures 15 to 21, and with reference initially to figures 15 and 16, the support set 100 is able to be fixed on a standard door 4 of the cooling tool 1: door 4 can be opened or closed to access or close the cooling compartment 3 in a conventional manner, for example, it can be hingedly mounted on the body 2 of the refrigerator 1 by hinges (not shown). According to a preferred embodiment, the door 4 includes an internal surface which faces the cooling compartment 3 when the door 4 is closed and which defines substantially parallel first and second side walls 4a, 4b projecting inwardly with respect to the cooling compartment 3 from a substantially flat rear wall 4c to define a cavity in door 4. In said side walls 4a, 4b, door 4 includes a plurality of spacers 80 for attaching shelves according to the prior art. Spacers 80 are known in the art and are not further described below.
[0060] [060] The support set 100 can be mounted - among other places - on the cooling utensil 1 built in accordance with the prior art, that is, utensils for cooling comprising said spacers 80 for the adjustment of the shelves. The support assembly 100 comprises at least one rail, more preferably two rails 23a ', 23b' which will be mounted vertically facing each other on the two opposite side walls 4a, 4b and will be attached to the spacers 80. The rails 23a ', 23b 'are substantially analogous to the rails 23a, 23b described with reference to the furniture support assemblies 10, 10' and, furthermore, as shown in figures 18a-18c, they preferably include fixing means to be securely attached to the spacers 80, for example, a hook element 84. In the figures mentioned, the assembly of rails 23a ', 23b' on door 4 is illustrated: each rail 23a ', 23b' includes hook element 84 and each rail 23a ', 23b' is inserted in a respective column of spacers 80 from port 4 and pressed down so that the hook element 84 of each rail is hooked on a spacer 80 to hold the rail 23a ', 23b' on the respective side walls 4a, 4b. A locking key 82 is then inserted into a suitable opening 85 at the bottom end of each rail 23a ', 23b' and rotated 90 ° to secure the rail. This system allows the user to finish loosening the door rails in an easy way, for example, for cleaning purposes. It is to be understood that the rails 23a ', 23b' can be directly molded on the sides of the door 4 or attached to said side walls as described with reference to figures 22a, 22b or in any other way known to the person skilled in the art.
[0061] [061] In the described embodiment, the door support assembly 100 includes a shelf 11 having a tray shape. The pulleys 14a, 14b and the shelf 11 are integrated in one piece: the two pulleys are the side walls of the tray having an L-shaped cross-section in order to be inserted in the rails 23a ', 23b' attached to the side walls of the door 4. However, a possible additional embodiment of the door support assembly (not shown) comprises separate pulleys 14a, 14b which are then attached to the shelf 11, in a configuration as described with reference to embodiments 10 and 10 '.
[0062] [062] As shown in the partial cross-section of figure 16a, each pulley 14b, 16b includes a plurality of projections 93 (two in the described mode, which are substantially cylindrical) that are inserted into the respective guide 25 and help to hold the tray 11 in the correct vertical orientation without tilting it. The operation is similar to modality 10 'described above: the two pulleys are coupled to the two rails 23a', 23b 'in order to have a sliding movement of the door support assembly 100 in the rails, but in this modality there is also the insertion of the projections 93 in the guide 25. As previously, two gears 15a, 15b connected by the axis 18 are responsible for the vertical movement of the tray 11 due to the interlocking of the gears with rack portions 21 (see figure 16a) built in the rails 23a ', 23b'. The axis 18 is preferably located below the tray 11 and both gears 15a, 15b are inserted in the respective guide portions 25 constructed on the rails 23a ', 23b' as described with reference to the modality of the mobile support set 10 and 10 '.
[0063] [063] The unidirectional stop unit includes the sprocket 70 which is fixed on the shaft 18 next to the gear 15a, and the lever 50 for disengaging the stop unit. The operation of the unit is analogous to the operation of the unit described with reference to the furniture support set 10 ’. However, it should be understood that a stop unit analogous to that described with reference to the furniture support set 10 can also be employed.
[0064] [064] To move the door support assembly 100 upward, an impulse given, for example, manually under tray 11 causes lever 50 to slide on gear 70, so that upward movement is allowed. As soon as the force stops and the gear 70 begins to rotate in the opposite direction due to gravity, the engagement of the gear teeth 71 with the chamfer 72 not the lever head 73 locks the tray 11 in the desired position. This “docked” configuration is shown in figure 19; see also figure 21 in which an enlarged view of the wheel 70 is shown.
[0065] [065] To move the tray 11 downwards, it is required that the lever 50 is pushed, using, for example, the cable 51, so that the sprocket 70 is free to rotate and the tray 11 is forced by its own weight and the weight of the items supported by it to move downwards. To prevent an immediate fall, a brake device, such as an insulating ring 60, is placed inside a pulley and operates coaxially with the axis 18. The frictional force opposite the falling force creates a slow downward movement. This “disengaged” configuration is shown in figure 20. While the lever 50 is released, that is, the cable 51 is released by the user, the head 73 of the lever 50 snaps back into the unidirectional sprocket 70 and the tray 11 is locked in the desired new position.
[0066] [066] In another embodiment not shown in the attached drawings, in addition to the vertical adjustment described by means of the rails 23a, 23b or 23a ', 23b', the support set 10, 10 ', 100 can also be adjusted horizontally, that is, the shelf 11 can be adjusted along a plane parallel to the wall / ceiling wall of the compartment 3. In this other embodiment, the pulleys 14a, 14b can comprise an additional guide element between the flaps 97a, 97b to allow back and forth movements front of shelf 11 in the direction of door 4 and in the opposite direction.
[0067] [067] With reference now to figures 23a, 23b and 24a, 24b, support mounts 10 with different types of support members are illustrated, particularly with a platform shelf 11 and a tray 11 'or a hook 11' ', for show the versatility of the present invention. In fact, the vertical adjustment described above can be applied not only in relation to standard shelves 11, but also in relation to, for example, trays 11 ': the pulleys 14a, 14b and the shaft 18 connecting the gears 15a, 15b are mounted on the rails 23a, 23b as described, and the tray is connected, for example, to the shaft cover 20 (which does not rotate, but simply moves vertically together with the pulleys 14a, 14b) by the fixing means 94. The trays 11 'therefore, they can move both vertically and as described and also slide along axis 18 (see the different positioning of tray 11' in figures 23a and 23b) so that they are positioned according to the distribution in the cooling compartment 3. In the illustrated example, the same rails 23a, 23b are used to support two different support assemblies 10.
[0068] [068] Furthermore, as shown in figures 24a, 24b, the support assembly 10 can include a hook 11 '' in place of a platform shelf 11.
[0069] [069] The same can be applied to the furniture support set 10 'as well as the door support set 100 to be fixed on the door 4 of the cooling tool 1. In the latter case, the pulleys 14a, 14b are no longer integrated in tray 11 as shown in the embodiment of figures 15-20, but they are separated from it as in the furniture support set 10, 10 '.
[0070] [070] In this case, the impulse to move the shelf can be applied, for example, to the shaft cover.
[0071] [071] According to the invention, therefore, both the furniture support members and the door support members can be easily adjusted along the vertical direction. The support members can be moved up or down using one hand without any inclination problems. In addition, the position of the support member even in the downward direction can be easily adjusted without the activation of complex mechanisms. In addition, multiple support members can be inserted on the same tracks. The assembly is easy to remove and can be completely disassembled by the user for easy cleaning.

权利要求:
Claims (13)
[0001]
REFRIGERATION UTENSIL (1), including a body (2) in which a cooling compartment (3) is defined and a door (4) connected to the body to open and close the compartment, and a height-adjustable support set (10 , 10 ', 100) connected to the body and / or the door, the appliance for cooling (1) being characterized by also comprising: - a first and a second track (23a, 23b; 23a ', 23b') each including a rack portion (21) attached to the body (2) inside the compartment (3) and / or to the door (4), track (23a, 23b; 23a ', 23b') extending along a vertical geometric axis; the height adjustable support set (10, 10 ', 100) comprising: - a support member (11; 11 ';11'') to hold items to be refrigerated / frozen, - a first and a second gear (15a, 15b) rotatably connected to the support member (11, 11 ', 11'') and connected to each other by an axis (18) so that the rotation of any of the first and second second gears implies the rotation of the other first and second gears, the first and second gears (15a, 15b) intertwine with a corresponding rack portion (21) on the first and second rails (23a, 23b; 23a ', 23b') so that the support member can be moved vertically along the rail (23a, 23b; 23a ', 23b'), - a single unidirectional stop unit (19; 70) coupled on one side of the support member (11, 11 ', 11'') to regulate the rotation of the first and second gear (15a, 15b) interlaced with the rack portions (21), allowing upward movement of the support member (11; 11 ', 11''') along the vertical geometric axis and blocking downward movements along the vertical geometric axis, and - a single lever (50) coupled to the unidirectional stop unit, the lever (50) being able to disengage the unidirectional stop unit in order to allow a downward movement of the support member (11; 11 ';11'') to the along the vertical geometric axis when operated.
[0002]
REFRIGERATION UTENSIL (1), according to claim 1, characterized in that the rail (23a, 23b; 23a ', 23b') includes a plurality of projections (30) defining indentations (30a) between them, the unidirectional stop unit comprising a resilient element (19) that fits into one of the recesses to lock the support assembly (10; 100) in a given vertical position.
[0003]
REFRIGERATION UTENSIL (1), according to claim 2, characterized in that the resilient element (19) is suitable for sliding from an indentation to the adjacent indent along the vertical geometric axis when an upward thrust is applied to the support assembly ( 10; 100).
[0004]
REFRIGERATION UTENSIL (1), according to any of claims 2 to 3, characterized in that the resilient element (19) is coupled to the lever (50), so that the resilient element is removed from the recoil (30a) when the lever ( 50) is operated in order to disengage the one-way stop unit and allow free vertical movements along the vertical geometric axis of the support assembly (10, 100).
[0005]
REFRIGERATION UTENSIL (1) according to any one of claims 2 to 4, characterized in that the resilient element is a clamp (19) comprising a V-shaped element having the tip (19c) which is designed to fit the recess (30a ), and where the V-shaped element comprises a branch (19a) which is designed to be in contact with the lever (50), so that when the lever is operated, the branch (19a) is moved and the tip (19c) is removed from the recess (30a).
[0006]
REFRIGERATION UTENSIL (1), according to any one of claims 2 to 5, characterized in that the projections (30) are vertically stacked and parallel to the rack portion (21), each projection (30) comprising an inclined wall (32) in the which tip (19c) can slide when the upward thrust is applied to the support assembly (10; 100).
[0007]
REFRIGERATION UTENSIL (1), according to claim 1, characterized in that the unidirectional stop unit comprises a unidirectional sprocket (70) rotating together with the gear (15a, 15b), the unidirectional sprocket (70) being engaged with a chamfer (72) built into the lever (50).
[0008]
REFRIGERATION UTENSIL (1), according to claim 7, characterized in that the unidirectional sprocket (70) includes asymmetric teeth (71) so that when the sprocket (70) rotates in one direction, the sprocket (70) slides on the lever (50), while when the sprocket (70) turns in the opposite direction, the sprocket is locked in the chamfer (72).
[0009]
REFRIGERATION UTENSIL (1), according to any one of claims 7 to 8, characterized in that the gear wheel (70) detaches from the lever (50) when the lever (50) is operated, in order to detach the one-way stop unit and allow free vertical movements of the support set (10 '100).
[0010]
REFRIGERATION UTENSIL (1), according to any one of claims 1 to 9, characterized in that the support set is a furniture support set (10; 10 ').
[0011]
REFRIGERATION UTENSIL (1), according to any one of claims 1 to 10, characterized in that the support set is a door support set (100).
[0012]
REFRIGERATION UTENSIL (1), according to any one of claims 1 to 11, characterized in that the support assembly (10; 10 '; 100) includes a brake element (60) to slow down the sliding movement downwards along the vertical geometric axis when the one-way stop unit is in the disengaged position.
[0013]
REFRIGERATION UTENSIL (1), according to any one of claims 1 to 12, characterized in that the support member (11; 11 '; 11' ') is a platform shelf (11) and / or a tray and / or a hook (11``).

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3610174A|1969-10-08|1971-10-05|Gen Motors Corp|Infinite adjustable door shelf|

US5199778A|1990-01-19|1993-04-06|Matsushita Refrigeration Company|Shelf apparatus for a refrigerator|

US5913584A|1997-09-23|1999-06-22|White Consolidated Industries, Inc.|Adjustable refrigerator shelf|

US6065821A|1998-05-15|2000-05-23|Maytag Corporation|Vertically adjustable shelf and support rail arrangement for use in a cabinet|

US6582038B2|2001-07-12|2003-06-24|Comercial Acros Whirlpool, S.A. De C.V.|Storage bin mounting system for a refrigerator door|

JP2004053211A|2002-07-23|2004-02-19|Toshiba Corp|Shelf device and refrigerator comprising the same|

KR20050028265A|2003-09-18|2005-03-22|엘지전자 주식회사|Device for lifting shelf for refrigerator|

DE202006020932U1|2006-03-27|2011-02-17|BSH Bosch und Siemens Hausgeräte GmbH|Refrigerating appliance with height-adjustable stand|

KR100833370B1|2006-11-20|2008-05-28|엘지전자 주식회사|Elevation adjustment structure of shelf for refrigerator|

KR20080059758A|2006-12-26|2008-07-01|엘지전자 주식회사|Refrigerator|

KR100916699B1|2007-04-06|2009-09-11|엘지전자 주식회사|Refrigerator|

DE202007013356U1|2007-05-31|2008-10-09|Liebherr-Hausgeräte Ochsenhausen GmbH|Device for adjusting a floor or shelf of a refrigerator and / or freezer|

KR100954518B1|2008-06-02|2010-04-27|엘지전자 주식회사|A refrigerator and shelf apparatus for refrigerator|

WO2010054683A1|2008-11-11|2010-05-20|BSH Bosch und Siemens Hausgeräte GmbH|Refrigeration device having adjustable-height refrigerated goods placement|

US8322804B2|2009-01-15|2012-12-04|Lg Electronics Inc.|Container elevating apparatus in a door refrigerator|

US8215732B2|2009-01-15|2012-07-10|Lg Electronics Inc.|Vertically adjustable refrigerator shelf with hidden drive unit|

US8052236B2|2009-01-15|2011-11-08|Lg Electronics Inc.|Refrigerator|

KR20100085252A|2009-01-20|2010-07-29|주식회사 대우일렉트로닉스|Height adjustment device for refrigerator shelf|

DE102009000845A1|2009-02-13|2010-08-19|BSH Bosch und Siemens Hausgeräte GmbH|Refrigeration unit with height-adjustable refrigerated goods storage|AU2013350850B2|2012-11-27|2016-01-14|Skope Industries Limited|Adjustable shelf support|

JP6498866B2|2013-03-12|2019-04-10|東芝ライフスタイル株式会社|Refrigerator, camera device|

JP6391943B2|2013-03-12|2018-09-19|東芝ライフスタイル株式会社|Refrigerator, camera device, internal image display program|

DE102013206403A1|2013-04-11|2014-10-16|BSH Bosch und Siemens Hausgeräte GmbH|Refrigerating appliance with a door rack|

CN104180596B|2013-05-24|2018-05-01|海尔集团公司|Refrigerating equipment shelf support and refrigerating equipment|

JP2016528115A|2013-06-28|2016-09-15|セラニーズアセテート，エルエルシー|Modified feed tray for porous mass filter rods|

CN104596191B|2013-10-31|2016-10-05|海尔集团技术研发中心|Shelf and there is the refrigerator of this shelf|

CN104729218A|2013-12-23|2015-06-24|海尔集团公司|Adjustable shelf and refrigeration equipment|

CN104344675B|2014-02-08|2016-11-23|海尔集团公司|Rack component and there is the refrigerator of this rack component|

CN104006620B|2014-05-14|2016-03-23|海信容声冰箱有限公司|A kind of refrigerator|

CN104006619B|2014-05-14|2016-09-21|海信容声冰箱有限公司|A kind of refrigerator|

EP3015802B1|2014-08-12|2018-03-28|LG Electronics Inc.|Refrigerator|

CN105337188A|2014-08-14|2016-02-17|江苏铭安电气有限公司|Power distribution box with adjustable height|

US9784494B2|2014-10-27|2017-10-10|Whirlpool Corporation|Universal fixing system for a range of modular refrigerator components|

CN106288627B|2015-06-08|2019-12-20|博西华电器（江苏）有限公司|Refrigeration device|

US10474987B2|2015-08-05|2019-11-12|Whirlpool Corporation|Object recognition system for an appliance and method for managing household inventory of consumables|

KR20170065216A|2015-12-03|2017-06-13|삼성전자주식회사|Door guard assembly and refrigerator having the same|

KR20170082090A|2016-01-05|2017-07-13|엘지전자 주식회사|refrigerator|

KR20170114580A|2016-04-05|2017-10-16|엘지전자 주식회사|refrigerator|

KR20170127807A|2016-05-12|2017-11-22|엘지전자 주식회사|A refrigerator|

CN109843119B|2016-08-26|2021-10-08|恩耐公司|Laser module maintenance rack|

CN106288631A|2016-09-21|2017-01-04|合肥华凌股份有限公司|A kind of liftable shelf and refrigerator|

DE102017001178A1|2016-11-08|2018-05-09|Liebherr-Hausgeräte Lienz Gmbh|Fridge and / or freezer|

DE102016223181A1|2016-11-23|2018-05-24|BSH Hausgeräte GmbH|Household appliance door and method for adjusting a door compartment of a household appliance door|

US10376058B2|2017-03-23|2019-08-13|Walmart Apollo, Llc|Automated motorized modular shelf system|

DE102017123556A1|2017-07-10|2019-01-10|Liebherr-Hausgeräte Ochsenhausen GmbH|Refrigerator and / or freezer|

US10694843B2|2017-09-12|2020-06-30|Haier Us Appliance Solutions, Inc.|Adjustable shelving assembly for a refrigerator appliance|

US10451336B2|2017-10-12|2019-10-22|Whirlpool Corporation|Adjustable refrigerator compartment and door assembly|

KR20190120881A|2018-04-17|2019-10-25|엘지전자 주식회사|An Oven Equipped with Easy-Elevating Tray|

CN108594888B|2018-06-04|2021-03-02|合肥亚卡普机械科技有限公司|Novel convenient living beings liquid adds incubator|

CN108679915B|2018-07-09|2020-06-23|海信（山东）冰箱有限公司|Refrigerator door shelf mounting structure and refrigerator|

US10912160B2|2018-07-19|2021-02-02|Whirlpool Corporation|Cooking appliance|

US10465971B1|2018-07-31|2019-11-05|Whirlpool Corporation|Sliding storage bin|

CN111721062B|2019-03-22|2021-12-17|合肥华凌股份有限公司|Shelf lifting device, control method and control system thereof, refrigerator and storage medium|

US10962279B1|2019-12-19|2021-03-30|Midea Group Co., Ltd.|Refrigerator with an adjustable bin|

法律状态:
2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-12-24| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-11-24| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-01-12| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 09/02/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

EP11155015.8A|EP2489967B1|2011-02-18|2011-02-18|Refrigerating appliance|

EP11155015.8|2011-02-18|

PCT/EP2012/052202|WO2012110393A1|2011-02-18|2012-02-09|Refrigerating appliance|

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