CN109813041A - Article-storage device and refrigerator with the article-storage device - Google Patents

Abstract

Present invention discloses a kind of article-storage device and with the refrigerator of the article-storage device.The article-storage device includes the ontology for surrounding an accommodating chamber, a pair of of guiding mechanism and the first separation frame for dividing the accommodating chamber, the ontology includes bottom wall, a pair of of the first side wall and a pair of of second sidewall, first separation frame is connected to the guiding mechanism, it is characterized in that, the guiding mechanism rubbing board ontology and guide part, the guide part and the plate ontology surround a U-lag that Open Side Down, the guiding mechanism is by the U-lag hanging buckle in the upper end surface of the second sidewall, and the guiding mechanism can be slid back and forth along the upper surface of the second sidewall to drive the first separation frame synchronous slide.The present invention can not only promote the divided freedom degree of accommodating chamber and flexibility, to adapt to different storage requirements, and assembling/convenient disassembly, facilitate user to clean article-storage device and accept or reject guiding mechanism and separation frame as needed.

Description

Article-storage device and refrigerator with the article-storage device

Technical field

The present invention relates to a kind of article-storage device and with the refrigerator of the article-storage device, belong to household appliance technical field.

Background technique

Storage unit of refrigerator, such as drawer, crisper, storage tank, bottle holder etc. generally have a big accommodating chamber, when When placing numerous food, mutually mingle between numerous food, it is extremely inconvenient to pick and place.It is a variety of especially to mingle placement in cold chamber drawer It when food, sticks together after provision room freezing, it is more inconvenient that food is taken out from freezer compartment of refrigerator drawer.

To solve the above problems, the accommodating chamber of article-storage device is split by some manufacturers with separation frame, but often Accommodating chamber can only simply be divided, cannot freely adjust partition space according to storage article, flexibility is poor；And The package assembly of separation frame is complicated, is not easy to disassembly and assembly；The storage article of the different compartments mutually slides intersection, up to not To the effect of segmentation.

Summary of the invention

It is one of at least to solve the above problems, the present invention provides a kind of refrigerator and its article-storage device.

One of to achieve the above object, one embodiment of the invention provides a kind of article-storage device, and the article-storage device includes Surround the ontology, a pair of of guiding mechanism and the first separation frame for dividing the accommodating chamber of an accommodating chamber, the ontology packet It includes bottom wall, a pair of of the first side wall and a pair of of second sidewall, first separation frame and is connected to the guiding mechanism, the guiding Mechanism rubbing board ontology and guide part, the guide part and the plate ontology surround a U-lag that Open Side Down, the Guiding machine Structure is by the U-lag hanging buckle in the upper end surface of the second sidewall, and the guiding mechanism can be along the second sidewall Upper surface slides back and forth to drive the first separation frame synchronous slide.

Further, when the guiding mechanism hanging buckle is when the upper end surface of the second sidewall, the guiding mechanism with The second sidewall is limited in the relative motion on left and right directions；When first separation frame is connected to the guiding mechanism When, first separation frame is limited with the guiding mechanism in the relative motion on left and right directions.

Further, the article-storage device further includes adjusting component and the second separation for dividing the accommodating chamber Frame, second separation frame are rotatably connected on first separation frame by the adjusting component around vertical axes.

Further, second separation frame is rotated around the vertical axes so that the storing relative to first separation frame It is installed between stacked state and unfolded state and switches；When the article-storage device is in the stacked state, described second separates The division surface of frame is mutually coplanar with the division surface of first separation frame；When the article-storage device is in the unfolded state, institute The division surface for stating the division surface and first separation frame of the second separation frame is perpendicular.

Further, the adjusting component has the first meshing state corresponding with the stacked state and the exhibition Corresponding second meshing state of open state and facing between first meshing state and second meshing state Boundary's state；When second separation frame and first separation frame relatively rotate, the adjusting component is by a flexible drive Power, the resilient urging force drive the adjusting component to be changed to first meshing state or described by the critical state Two meshing states.

Further, the adjusting component includes:

First regulating mechanism is coupled with one of first separation frame and second separation frame；

Second regulating mechanism, wherein another mating with first separation frame and second separation frame, described first Regulating mechanism can be connect in relative rotation with second regulating mechanism around the vertical axes, with drive second separation frame with First separation frame relatively rotates.

Further, the adjusting component further includes cam structure, and the cam structure includes being formed in described first to adjust The second concave-convex curved surface for saving the first concave-convex curved surface in mechanism and being formed on second regulating mechanism；When first tune When section mechanism and second regulating mechanism are relatively rotated around the vertical axes, second concave-convex curved surface and first bumps Curved surface cooperation against each other so that first regulating mechanism and second regulating mechanism be relatively distant from along the vertical direction or Relatively close reciprocal spasmodic motion.

Further, second separation frame is also slidably connected to first separation frame by the adjusting component On.

Further, first separation frame includes the separation cross for extending and be used to divide the accommodating chamber in left-right direction Bar, second separation frame include the segmentation vertical pole for dividing the accommodating chamber；The adjusting component include first passage and Second channel, the first passage are slidably passed through for one of the separation cross bar and the segmentation vertical pole, and described the Two channels are slidably passed through for the separation cross bar and described segmentation the wherein another of vertical pole.

One of to achieve the above object, one embodiment of the invention provides a kind of refrigerator including the article-storage device.

Compared with prior art, the invention has the following advantages: passing through first separation frame of setting and guiding mechanism Fit structure can not only promote the divided freedom degree of accommodating chamber and flexibility, to adapt to different storage requirements, and group Dress/convenient disassembly facilitates user to clean article-storage device and accepts or rejects guiding mechanism and separation frame as needed.

Detailed description of the invention

Fig. 1 is the structure chart of the article-storage device of first embodiment of the invention, wherein illustrating article-storage device is in stacked shape State；

Fig. 2 is the Structure explosion diagram of the article-storage device of first embodiment of the invention；

Fig. 3 is the structure chart of the article-storage device of first embodiment of the invention, wherein illustrating article-storage device is in expansion shape State；

Fig. 4 a is the structure chart when adjusting component of first embodiment of the invention is in the first meshing state；

Fig. 4 b is the structure chart when adjusting component of first embodiment of the invention is in critical state；

Fig. 4 c is the structure chart when adjusting component of first embodiment of the invention is in the second meshing state；

Fig. 5 is the Structure explosion diagram of the adjusting component of first embodiment of the invention；

Fig. 6 a is the structure chart of the article-storage device of first embodiment of the invention, wherein shape when illustrating accommodating chamber zero marks area State；

Fig. 6 b is the structure chart of the article-storage device of first embodiment of the invention, wherein shape when illustrating two subregion of accommodating chamber State；

Fig. 6 c is the structure chart of the article-storage device of first embodiment of the invention, wherein shape when illustrating three subregion of accommodating chamber State；

Fig. 7 is the structure chart of the article-storage device of second embodiment of the invention；It wherein illustrates article-storage device and is in stacked shape State；

Fig. 8 is the Structure explosion diagram of the article-storage device of second embodiment of the invention；

Fig. 9 a is the structure chart when adjusting component of second embodiment of the invention is in the first meshing state；

Fig. 9 b is the structure chart when adjusting component of second embodiment of the invention is in critical state；

Fig. 9 c is the structure chart when adjusting component of second embodiment of the invention is in the second meshing state.

Specific embodiment

An embodiment of the present invention provides a kind of refrigerator, and the refrigerator includes cabinet and chamber door, the cabinet and chamber door At least one storage compartment is limited, the storage compartment can be refrigerating chamber, freezing chamber, temperature-changing chamber etc..The refrigerator also wraps Include the article-storage device for storing article, the article-storage device be set to it is indoor between the storage, specifically may be configured as drawer, Crisper, storage tank, bottle holder etc..In the following, describing in detail in conjunction with specific embodiments to the article-storage device of the invention.

Embodiment 1

Join Fig. 1~6c, present embodiments provide a kind of article-storage device 100, which includes ontology 11, a pair Guiding mechanism 12, the first separation frame 132, the second separation frame 131 and adjusting component 14.

Ontology 11 surround it is with an open mouth substantially be in cuboid accommodating chamber 10, the accommodating chamber 10 for store various types storage Storage, such as food, beverage.Ontology 11 includes bottom wall, a pair of of the first side wall 11a being oppositely arranged and a pair being oppositely arranged Second sidewall 11b.The bottom wall is for carrying storage object, and a pair of of the first side wall 11a and a pair of of second sidewall 11b is respectively described in Bottom wall extends vertically upwards.

Clearly to express position and direction as described in this embodiment, the relative position institute of a pair of of the first side wall 11a For the direction definition limited as front-rear direction (also referred to as longitudinal), direction defined by the relative position of a pair of of second sidewall 11b is fixed Justice is left and right directions (also referred to as laterally).That is, being oppositely arranged before and after a pair of of the first side wall 11a, a pair of of second sidewall 11b or so It is oppositely arranged.In addition, the plane definition that the front-rear direction and the left and right directions limit jointly is horizontal plane, perpendicular to described The direction definition of horizontal plane is vertical direction.

Join Fig. 1 and Fig. 2, a pair of of guiding mechanism 12 is respectively arranged on a pair of of second sidewall 11b.Guiding mechanism 12 includes leading To bar 12a, guide part 12b and fixing seat 12c, in which: guiding mechanism 12 is fixed on ontology 11 by fixing seat 12c, Gu Fixed form between reservation 12c and ontology 11 can be used threaded connection, rivet, snap connection；Guide rod 12a is parallel to Two side wall 11b and front and back extension；Guide part 12b is sheathed on guide rod 12a and can slide back and forth along guide rod 12a, works as guiding When mechanism 12 is fixed on ontology 11, guide part 12b can and only can opposing body 11 slide back and forth.

First separation frame 132 is placed in accommodating chamber 10, and can be used for carrying out front and back segmentation to accommodating chamber 10.Specifically, First separation frame 132 includes separator, and the separator is horizontally placed in accommodating chamber 10 to be used to be split accommodating chamber 10, institute Vertical plane where stating separator defines the division surface of the first separation frame 132, and accommodating chamber 10 is with the division surface of the first separation frame 132 Divided for boundary by front and back.In the present embodiment, the separator includes separation cross bar 132a, the 132b for being set as elongated rod shape, point Extend every cross bar 132a, 132b or so and is arranged in being spaced on vertical direction.

First separation frame 132 further includes a pair of of connector 132c, and connector 132c connection separates the end cross bar 132a and divides A rectangle framework is surrounded every the end cross bar 132b, and with cross bar 132a, 132b is separated.

First separation frame 132 is connected on ontology 11 slidingly back and forth by guiding mechanism 12, to adjust 10 quilt of accommodating chamber Divide the size and/or quantity for the storage subregion to be formed in front and back.Specifically, the first separation frame 132 includes being formed in the first separation A pair of of fixed part 132d of the left and right ends of frame 132, each fixed part 132d are connected on corresponding guide part 12b.When leading When sliding back and forth to part 12b along guide rod 12a, the first separation frame 132 is synchronous to slide back and forth in accommodating chamber 10.

Fixed part 132d and guide part 12b are mating each other.Fixed part 132d is specifically configured to elongated rod shape, extension side To with separate cross bar 132a, 132b extending direction (left and right directions) it is perpendicular；Guide part 12b includes and fixed part 132d phase It is mating in mounting hole 12d that the mounting hole 12d matched, fixed part 132d can extend along direction.When fixed part 132d is planted When in mounting hole 12d, fixed part 132d and mounting hole 12d make fixed part 132d can not phase in limiting each other on left and right directions To guide part 12b side-to-side movement；A pair of of guide part 12b limits the first separation frame 132, so that the first separation frame 132 can not 11 side-to-side movement of opposing body, enhance the first separation frame 132 stability.

The outer surface of each guide part 12b is posted by corresponding second sidewall 11b, in this way, when the first separation frame 132 When generating the leftward or rightward movement tendency of opposing body 11, one guide part 12b can by with corresponding second sidewall 11b Support to limit the first separation frame 132 movement tendency to the left, another guide part 12b can by with corresponding second sidewall 11b's supports to limit the movement tendency of the first separation frame 132 to the right.

In the present embodiment, guiding mechanism 12 is set to the outside that ontology 11 deviates from accommodating chamber 10, is specifically set to corresponding Second sidewall 11b outside.The inside of each guide part 12b is posted by respectively on corresponding second sidewall 11b, to increase It is strongly guided stability of the part 12b in sliding, avoids 132 opposing body of the first separation frame, 11 double swerve in use process.

The guide groove 11c that front and back extends is provided on each second sidewall 11b, the left and right ends of the first separation frame 132 pass through It is coupled to after guide groove 11c on guiding mechanism 12, specifically, fixed part 132d is coupled to after passing through guide groove 11c from accommodating chamber 10 In the mounting hole 12d of guide part 12b.

In the present embodiment, the extending direction of fixed part 132d is parallel to the extending direction namely fixed part of guide groove 11c 132d also extends along the longitudinal direction, shakes in this way, not only can avoid 132 opposing body 11 or so of the first separation frame in use process It is dynamic, but also disassembled from guide part 12b convenient for fixed part 132d, and then facilitate the group installation and dismantling of the first separation frame 132 It unloads.

Further, guide part 12b includes split settings ground the first guide member 121b and the second guide member 122b, and One guide member 121b and the second guide member 122b removably assembly and connection.Mounting hole 12d is set to the first guide member On 121b, the first guide member 121b and the second guide member 122b surround a channel 12e, and channel 12e is connected with mounting hole 12d It is logical.When the first guide member 121b and the second guide member 122b is separated, fixed part 132d can be from the first guide member 121b It is inserted in mounting hole 12d between the second guide member 122b, then the first guide member 121b and the second guide member 122b assembly and connection prevents fixed part 132d from installation so that the second guide member 122b be made to limit fixed part 132d It is detached from away in the 12d of hole.

Join Fig. 1~3, the second separation frame 131 is placed in accommodating chamber 10, and can be used for carrying out accommodating chamber 10 left and right point It cuts.In the present embodiment, the second separation frame 131 is rotationally connected with the first separation frame 132 around vertical axes t by adjusting component 14 On, according to the positional relationship of the second separation frame 131 and the first separation frame 132, article-storage device 100 has stacked state (ginseng Fig. 1) With unfolded state (ginseng Fig. 3).It is rotationally connected on the first separation frame 132 by the way that the second separation frame 131 is arranged, is adjusted and accommodates The quantity for the storage subregion that the segmentation of chamber 10 is formed, increases the flexibility divided to accommodating chamber 10.

Second separation frame 131 includes spacer body, and the spacer body can be used for being split accommodating chamber 10, the spacer body The perpendicular at place defines the division surface of the second separation frame 131.Transverse width (namely a pair of of second sidewall of accommodating chamber 10 The spacing of 11b) it is greater than the longitudinal width (namely spacing of a pair of of the first side wall 11a) of accommodating chamber 10, correspondingly, the first separation frame The length of width namely the separator that the width of 132 division surface is greater than the division surface of the second separation frame 131 is greater than described The length of spacer body.

In the present embodiment, the spacer body includes separation vertical pole 131a, the 131b for being set as elongated rod shape, separates vertical pole 131a, 131b are parallel to each other and are arranged in being spaced on vertical direction.

Join Fig. 1, when article-storage device 100 is in the stacked state, the division surface of the second separation frame 131 and first separates The division surface of frame 132 is mutually coplanar, separate vertical pole 131a, 131b and separate cross bar 132a, 132b in left-right direction extend and Be located in the same vertical plane, in this way, when can reduce idle second separation frame 131 occupied space, while increase tidiness and Aesthetics；Join Fig. 3, when article-storage device 100 is in the unfolded state, 132 cross of the second separation frame 131 and the first separation frame Arranged in a crossed manner, accommodating chamber 10 can be divided as boundary by front and back using the division surface of the first separation frame 132, and accommodating chamber 10 can be with The division surface of two compartment frame 131 is that boundary is divided by left and right, at this time the division surface of the second separation frame 131 and the first separation frame 132 Division surface has a non-zero included angle, in the present embodiment, the division surface of the second separation frame 131 and the first separation frame 132 at this time Division surface is perpendicular, specifically, separates vertical pole 131a, 131b and extends along the longitudinal direction, separates cross bar 132a, 132b along left and right Direction extends, and separates vertical pole 131a, 131b perpendicular to separation cross bar 132a, 132b.

Further, the separator further includes glass partition 133a, partition 133a can by the first fixing piece 133b and It is assembled to second being easily selected by a user property of fixing piece 133e and separates cross bar 132a and separate between cross bar 132b.Wherein, partition 133a is assembled on connector 132c by the first fixing piece 133b, and is detachably connectable to adjust by the second fixing piece 133e It saves on component 14.By the way that partition 133a is arranged, make the storage article not phase in the storage subregion of 132 front and rear sides of the first separation frame Contact, avoids taint of odour, and storage article is avoided to slide from intersection between cross bar 132a and separation cross bar 132b is separated.Certainly, exist In the embodiment of variation, partition 133a, which can be not exclusively located in, to be separated cross bar 132a and separates between cross bar 132b, can also part It extends upwardly to and separates above cross bar 132a, and/or part extends downward into and separates below cross bar 132b.

It is disposed adjacent on vertical direction, separating vertical pole 131a and separating vertical pole 131b, and it is high always to separate vertical pole 131a In the coboundary (in the present embodiment namely separation cross bar 132a) of the separator, separates vertical pole 131b and be consistently lower than described point The lower boundary (in the present embodiment namely separation cross bar 132b) of spacing body.Separate vertical pole 131a, separate cross bar 132a, partition 133a, separation cross bar 132b, separation vertical pole 131b successively arrange in the vertical direction.In this way, when article-storage device 100 is in described When stacked state, the second separation frame 131 will not interfere with partition 133a.

Further, the second separation frame 131 can be also slidably connected on the first separation frame 132 by adjusting component 14, That is, the second separation frame 131 can not only rotate slidably but also around vertical axes t relative to the first separation frame 132, so that adjustment accommodates on demand Quantity/the size for the storage subregion that the segmentation of chamber 10 is formed.

Wherein, the second above-mentioned separation frame 131 is slidably connected on the first separation frame 132 by adjusting component 14, is had There are many implementations: first, the first separation frame 132 is not slidably attached to adjust component 14, the sliding of the second separation frame 131 Ground, which is connected to, adjusts component 14, thus the storage subregion that adjustable accommodating chamber 10 is formed by segmentation before and after the first separation frame 132 Size/quantity；Second, the first separation frame 132, which is slidably coupled to, adjusts component 14, the second separation frame 131 does not connect slideably It is connected to and adjusts component 14, thus the size for the storage subregion that adjustable accommodating chamber 10 is formed by the segmentation of the second separation frame 131 or so/ Quantity；Third, the first separation frame 132, which is slidably coupled to, adjusts component 14, and the second separation frame 131 is also slided as in the present embodiment Be connected to dynamicly adjust component 14, thus make accommodating chamber 10 divided before and after first separation frame 132 formation storage subregion and It can be conditioned by the size/quantity for the storage subregion that the segmentation of the second separation frame 131 or so is formed, flexibility is higher.

Lower mask body joins a~5 Fig. 4, and the specific structure for adjusting component 14 is described in detail.In the present embodiment, it adjusts Section component 14 is set as the cylindrical structure along a horizontal plane q mirror symmetry, certainly, in the embodiment of variation, shape, knot Structure is not limited to the present embodiment.

Adjusting component 14 includes the first regulating mechanism and the second regulating mechanism.First regulating mechanism and first separates The mating of one of frame 132 and the second separation frame 131, second regulating mechanism and the first separation frame 132 and second separate Wherein another mating of frame 131.In the present embodiment, first regulating mechanism and the first separation frame 132 are coupled, and are set as Two, namely adjusted with the first regulating mechanism 142a for separating cross bar 132a mating and with the first of separation cross bar 132b mating Mechanism 142b；Second regulating mechanism and the second separation frame 131 are coupled, and are also configured as two, namely with separate vertical pole 131a Second regulating mechanism 141a of mating and the second regulating mechanism 141b being coupled with separation vertical pole 131b；First regulating mechanism 142a matches with the second regulating mechanism 141a, and the first regulating mechanism 142b matches with the second regulating mechanism 141b.

First regulating mechanism 142a includes third component 43a, the 4th component 44a and first passage 145a.Wherein, third Component 43a includes two grab 434a and groove 433a；4th component 44a includes two card slot 441a and groove 442a；Two Grab 434a and two card slot 441a correspond and buckle mating, so that third component 43a and the 4th component 44a are assembled with one another Mating；First passage 145a is formed between third component 43a and the 4th component 44a, specifically by groove 433a and groove 442a is surrounded jointly, to facilitate the first regulating mechanism 142a and separate the assembling mating of cross bar 132a.First passage 145a is supplied Separate cross bar 132a to pass through, so that the first regulating mechanism 142a is slided along cross bar 132a is separated.

Likewise, the first regulating mechanism 142b and separation cross bar 132b assembling are coupled, specific structure is adjusted with reference to first Mechanism 142a, details are not described herein.First passage 145a and first passage 145b are parallel, adjust component 14 and slidingly match It is connected on the first separation frame 132.

Second regulating mechanism 141a includes first component 41a, second component 42a and second channel 144a.Wherein, first Component 41a includes two grab 411a and groove 412a；Second component 42a includes two card slot 421a and groove 422a；Two Grab 411a and two card slot 421a correspond and buckle mating, so that first component 41a and second component 42a are assembled with one another Mating；Second channel 144a is formed between first component 41a and second component 42a, specifically by groove 422a and groove 412a is surrounded jointly, to facilitate the second regulating mechanism 141a and separate the assembling mating of vertical pole 131a.Second channel 144a is supplied Separate vertical pole 131a to pass through, so that the second regulating mechanism 141a is slided along vertical pole 131a is separated.

Likewise, the second regulating mechanism 141b and separation vertical pole 131b assembling are coupled, specific structure is adjusted with reference to second Mechanism 141a, details are not described herein.Second channel 141a and second channel 141b are parallel, adjust component 14 and are slidably coupled to On second separation frame 131.

Further, the first regulating mechanism 142a includes that mating column 432a, the second regulating mechanism 141a include and mating column The matching hole that 432a matches；The matching hole of mating column 432a and the second regulating mechanism 141a can match in grafting along the vertical direction It closes, and the two matches junction with compatible cylinder each other, so that the first regulating mechanism 142a and the second regulating mechanism 141a It is matched and can be relatively rotated each other around vertical axes t, in the present embodiment, (being reference with ontology 11) second regulating mechanism 141a It is rotated around vertical axes t.Likewise, the second regulating mechanism 141b includes matching hole 424b, the first regulating mechanism 142b includes and matches Connect the mating column that hole 424b matches；The mating column of matching hole 424b and the first regulating mechanism 142b can be inserted along the vertical direction Cooperation is connect, and the two matches junction with compatible cylinder each other, so that the first regulating mechanism 142b and the second regulating mechanism 141b is matched and can relatively rotate each other around vertical axes t, in the present embodiment, (being reference with ontology 11) second regulating mechanism 141b is rotated around vertical axes t.

Also, when the matching hole mating of column 432a and the second regulating mechanism 141a is coupled, the two limits each other, with Limit the first regulating mechanism 142a and the relative displacement of the second regulating mechanism 141a horizontal direction, to avoid shaking.Together Sample, when the mating column of matching hole 424b and the first regulating mechanism 142b, the two limits each other, so that the first regulating mechanism The relative displacement of 142b and the second regulating mechanism 141b horizontal direction are limited, to avoid shaking.

In this way, passing through the relative rotation of first regulating mechanism 142a, 142b and second regulating mechanism 141a, 141b, drive First separation frame 132 and the second separation frame 131 are rotated around vertical axes t relative to each other, so that article-storage device 100 is in the stacked shape Switch between state and the unfolded state.

Specifically, adjust component 14 further include cam structure, the cam structure be formed in first regulating mechanism and Between second regulating mechanism.In the present embodiment, the number of the cam structure is set as two, namely is formed in first Cam structure 143a between regulating mechanism 142a and the second regulating mechanism 141a, and be formed in the first regulating mechanism 142b and Cam structure 143b between second regulating mechanism 141b.Certainly, in the embodiment of variation, cam structure can be only set as One of 143a and cam structure 143b.

By taking cam structure 143a as an example, (the tool of cam structure 143b is introduced to the specific structure of the cam structure Body structural reference cam structure 143a, repeats no more).Cam structure 143a includes being formed in the first upper surface regulating mechanism 142a The wavy first concave-convex curved surface 431a of complete cycle and be formed in the second lower end surface regulating mechanism 141a complete cycle it is wavy Second concave-convex curved surface 423a, the first concave-convex curved surface 431a and the second concave-convex curved surface 423a is adapted；And when the first regulating mechanism When 142a and the second regulating mechanism 141a is rotated around vertical axes t relative to each other, the second concave-convex curved surface 423a and the first concave-convex curved surface 431a cooperation against each other, so that the first regulating mechanism 142a and the second regulating mechanism 141a are done far along the vertical direction relative to each other From or close reciprocal spasmodic motion.

Cam structure 143a has the second concave-convex curved surface 423a and the first concave-convex curved surface 431a, and male-female engagement is at least each other Two minimum point positions of engagement (ginseng Fig. 4 a and Fig. 4 c) and the second concave-convex curved surface 423a and the first concave-convex curved surface 431a are convex each other The highest point abutted position (ginseng Fig. 4 b) of convex abutting.When cam structure 143a is from the minimum point position of engagement to the highest point When abutted position moves, the first regulating mechanism 142a and the second regulating mechanism 141a are separate along the vertical direction relative to each other；When convex When wheel construction 143a is moved from the highest point abutted position to the minimum point position of engagement, the first regulating mechanism 142a and Two regulating mechanism 141a are close along the vertical direction relative to each other.

When the second separation frame 131 is rotated relative to the first separation frame 132 around vertical axes t, to put object component 100 by described folded The process for setting state change to the unfolded state (puts object component 100 by the unfolded state and is changed to the stacked state Process in contrast, repeats no more) for:

Join Fig. 4 a, when article-storage device 100 is in the stacked state, adjusts component 14 and be in the first meshing state, this When, first passage 145a, 145b and second channel 144a, 144b are parallel, correspondingly, the division surface of the first separation frame 132 with The division surface of second separation frame 131 is parallel, and cam structure 143a, 143b are in the minimum point position of engagement；

Join Fig. 4 b, when article-storage device 100 switch from the stacked state to the unfolded state, adjusting component 14 by First meshing state into critical state change procedure, cam structure 143a, 143b from the minimum point position of engagement to Highest point abutted position movement, the first regulating mechanism 142a and the second regulating mechanism 141a along the vertical direction away from each other, First regulating mechanism 142b and the second regulating mechanism 141b is along the vertical direction away from each other；Until adjusting component 14 is in critical shape State, cam structure 143a, 143b are in the highest point abutted position；Then, component 14 is being adjusted from critical state to the In two meshing state change procedures, the first regulating mechanism 142a and the second regulating mechanism 141a are close to each other along the vertical direction, the One regulating mechanism 142b and the second regulating mechanism 141b are close to each other along the vertical direction；

Join Fig. 4 c, when article-storage device 100 is in the unfolded state, adjusts component 14 and be in the second meshing state, this When, first passage 145a, 145b and second channel 144a, 144b are perpendicular, correspondingly, the division surface of the first separation frame 132 with The division surface of second separation frame 131 is perpendicular, and cam structure 143a, 143b are in another minimum point position of engagement.

Further, cam structure 143a, 143b be disposed as circumference quartering structure namely cam structure 143a, When 143b is converted between two adjacent minimum point positions of engagement, the first regulating mechanism 142a and the second regulating mechanism 141a 90 ° are rotated relative to around vertical axes t, the first regulating mechanism 142b rotates 90 ° with the second regulating mechanism 141b relative to around vertical axes t. In turn, the second separation frame 131 rotates 90 ° around vertical axes t relative to the first separation frame 132, so that article-storage device 100 is in described stacked Switch between state and the unfolded state, completes an overturning period.

Meanwhile cam structure 143a, 143b are converted between the minimum point position of engagement and the highest point abutted position When, the first regulating mechanism 142a and the second regulating mechanism 141a rotate 45 ° relative to around vertical axes t, the first regulating mechanism 142b with Second regulating mechanism 141b rotates 45 ° relative to around vertical axes t.

Further, when cam structure 143a, 143b are not in the minimum point position of engagement, component 14 is adjusted always Cam structure 143a, 143b is driven to move to the resilient urging force of the minimum point position of engagement by one, that is, the elasticity Driving force drive the first regulating mechanism 142a and the second regulating mechanism 141a have trend close to each other along the vertical direction and First regulating mechanism 142b and the second regulating mechanism 141b has trend close to each other along the vertical direction.

In the present embodiment, the resilient urging force is provided by the second separation frame 131.Specifically, the second separation frame 131 is set It further include a pair of of connecting rod that connection separates the end of vertical pole 131a and separates the end of vertical pole 131b for rigid 131c；4th component 44a and the 4th component 44b is integrally formed, and the 4th component 44a is set as the top half of structural member 44, the Four component 44b are set as the lower half portion of component 44, so that first regulating mechanism 142a, 142b is fixedly connected in vertical direction. When cam structure 143a, 143b are in the minimum point position of engagement, the second separation frame 131 does not have elastic deformation, point Vertical pole 131a, 131b is cut to be parallel to each other and there is initial spacing；When cam structure 143a, 143b are not in the minimum point gearing Position (including between the minimum point position of engagement and the highest point abutted position and in highest point abutting position Set) when, under the drive of second regulating mechanism 141a, 141b, segmentation vertical pole 131a, 131b is close to the part adjusted at component 14 Spacing is greater than the initial spacing and end maintains the initial spacing, and then the second separation frame under the drawing of connecting rod 131c 131 occur elastic deformation, and elastically-deformable second separation frame 131 occurs and is applied to a flexible drive on adjusting component 14 Power.

In this way, in the overturning period that article-storage device 100 switches between the stacked state and the unfolded state: Under artificial external force, the second separation frame 131 is rotated relative to the first separation frame 132 around vertical axes t, is adjusted component 14 and is nibbled by first Conjunction state is to critical state (or from the second meshing state to critical state) variation, and cam structure 143a, 143b are by described in one The minimum point position of engagement is moved to the highest point abutted position, and second regulating mechanism 141a, 141b is remote each other along the vertical direction From elastic deformation occurs for the second separation frame 131 of drive；When adjusting the arrival critical state of component 14, cam structure 143a, 143b It is in the highest point abutted position, the elastic deformation of the second separation frame 131 reaches maximum；Over critical state, second Under the action of the elastic restoring force of separation frame 131, second regulating mechanism 141a, 141b is close to each other along the vertical direction, adjusting group Part 14 is from critical state to the second meshing state (or from critical state to the first meshing state) variation, to make article-storage device 100 are transformed to the unfolded state (or being transformed to the stacked state by the unfolded state) by the stacked state.

Certainly, in the embodiment of variation, article-storage device 100, which may also include, provides the elastic component of the resilient urging force, The elastic component is set between first regulating mechanism and second regulating mechanism, when the cam structure is not in institute When stating the minimum point position of engagement, elastic deformation occurs for the elastic component.

Further, connecting rod 131c is set as and separates vertical pole 131a, 131b non-co-planar, at article-storage device 100 When the stacked state, a pair of of connecting rod 131c, which reclines, to be separated cross bar 132a and separates cross bar 132b and be located at first The front and rear sides of separation frame 132.

Compared with prior art, the article-storage device 100 of the present embodiment can adjust the storing that the segmentation of accommodating chamber 10 is formed on demand Quantity/size of subregion, such as by the movement of the first separation frame 132 and/or the second separation frame 131, form zero such as Fig. 6 a Subregion, two subregions of Fig. 6 b or Fig. 1, Fig. 3 four subregions, or by the second separation frame of dismounting and change 131, form three such as Fig. 6 c Subregion；And first separation frame 132 disassembly it is easy to assembly, and stability is good in use process；First separation frame 132 divides shape At storing subregion can avoid intersect fall.

Embodiment 2

Referring to Fig. 7~9c, the present embodiment provides a kind of article-storage device 200, which includes ontology 21, a pair Guiding mechanism 22, the first separation frame 232, the second separation frame 231 and adjusting component 24.

Ontology 21 surround it is with an open mouth substantially be in cuboid accommodating chamber 20, the accommodating chamber 20 for store various types storage Storage, such as food, beverage.Ontology 21 specifically includes bottom wall, a pair of of the first side wall 21a being oppositely arranged and is oppositely arranged A pair of of second sidewall 21b.The bottom wall for carrying storage object, a pair of of the first side wall 21a and a pair of of second sidewall 21b respectively from The bottom wall extends vertically upwards.

Clearly to express position and direction as described in this embodiment, the relative position institute of a pair of of the first side wall 21a For the direction definition limited as front-rear direction (also referred to as longitudinal), direction defined by the relative position of a pair of of second sidewall 21b is fixed Justice is left and right directions (also referred to as laterally).That is, being oppositely arranged before and after a pair of of the first side wall 21a, a pair of of second sidewall 21b or so It is oppositely arranged.In addition, the plane definition that the front-rear direction and the left and right directions limit jointly is horizontal plane, perpendicular to described The direction definition of horizontal plane is vertical direction.

A pair of of guiding mechanism 22 is respectively arranged on a pair of of second sidewall 21b, that is, being arranged on each second sidewall 21b There is a guiding mechanism 22.Guiding mechanism 22 specifically includes plate ontology 22a, guide part 22b and mounting hole 22c.Wherein, it is oriented to Portion 22b and plate ontology 22a surrounds a U-lag that Open Side Down, and guiding mechanism 22 is by the U-lag hanging buckle in second sidewall The upper end surface of 21b, and guiding mechanism 22 can slide back and forth along the upper surface of second sidewall 21b, to facilitate guiding mechanism 22 And first separation frame 232 taken apart out of accommodating chamber 10 or group installs.Also, when 22 hanging buckle of guiding mechanism is in second sidewall When the upper end surface of 21b, guiding mechanism 22 and second sidewall 21b is limited in the relative motion on left and right directions.

First separation frame 232 is placed in accommodating chamber 20, and can be used for carrying out front and back segmentation to accommodating chamber 20.Specifically, First separation frame 232 includes separator, and the separator is horizontally placed in accommodating chamber 20 to be used to be split accommodating chamber 20, institute Vertical plane where stating separator defines the division surface of the first separation frame 232, and accommodating chamber 20 is with the division surface of the first separation frame 232 Divided for boundary by front and back.In the present embodiment, the separator includes separation cross bar 232a, the 232b for being set as elongated rod shape, point Extend every cross bar 232a, 232b or so and is arranged in being spaced on vertical direction.

First separation frame 232 is slidably coupled on ontology 21 along the longitudinal direction by guiding mechanism 22, passes through first point The sliding of shelf 232, adjustable accommodating chamber 20 is divided the size and/or quantity for the storage subregion to be formed by front and back, to adapt to not With the diversified demand of storage article.

Specifically, the first separation frame 232 includes the fixed part 232d for being formed in the left and right ends of the first separation frame 232, Gu Determine portion 232d to be coupled in the mounting hole 22c of guiding mechanism 22, so that the first separation frame 232 is slid back and forth by guiding mechanism 22 Ground is set in accommodating chamber 20.Namely when guiding mechanism 22 slides back and forth, the first separation frame 232 it is synchronous in accommodating chamber 20 Sliding.

Wherein, fixed part 232d extends in left-right direction, and can be inserted in left-right direction in mounting hole 22c.Work as fixation Portion 232d is mating to mounting hole 22c and 22 hanging buckle of guiding mechanism is when on second sidewall 21b, and guiding mechanism 22 can not be opposite 21 side-to-side movement of ontology, fixed part 232d and mounting hole 22c make the first separation frame 232 can not in limiting each other on left and right directions Be oppositely oriented 22 side-to-side movement of mechanism, the first separation frame 232 can not 21 side-to-side movement of opposing body, enhance the first separation frame 232 Stability.

Second separation frame 231 is placed in accommodating chamber 20, and can be used for carrying out left and right segmentation to accommodating chamber 20.In this implementation In example, the second separation frame 231 is rotationally connected on the first separation frame 232 by adjusting component 24 around vertical axes t1, according to the The positional relationship of two compartment frame 231 and the first separation frame 232, article-storage device 200 have stacked state (ginseng Fig. 7) and expansion shape State.The quantity that the storage subregion that the segmentation of accommodating chamber 20 is formed can be adjusted on demand in this way, increases the flexibility divided to accommodating chamber 20.

Second separation frame 231 includes spacer body, and the spacer body can be used for being split accommodating chamber 20, the spacer body The perpendicular at place defines the division surface of the second separation frame 231.Transverse width (namely a pair of of second sidewall of accommodating chamber 20 The spacing of 21b) it is greater than the longitudinal width (namely spacing of a pair of of the first side wall 21a) of accommodating chamber 20, correspondingly, the first separation frame The length of width namely the separator that the width of 232 division surface is greater than the division surface of the second separation frame 231 is greater than described The length of spacer body.

In the present embodiment, the spacer body includes separation vertical pole 231a, the 231b for being set as elongated rod shape, separates vertical pole 231a, 231b are parallel to each other and are arranged in being spaced on vertical direction.

Join Fig. 7, when article-storage device 200 is in the stacked state, the division surface of the second separation frame 231 and first separates The division surface of frame 232 is mutually coplanar, separate vertical pole 231a, 231b and separate cross bar 232a, 232b in left-right direction extend and It is located in the same vertical plane, separates cross bar 232a, separate vertical pole 231a, separate vertical pole 231b, separate cross bar 232b vertical It successively arranges on direction；When article-storage device 200 is in the unfolded state, the second separation frame 231 and the first separation frame 2,320 Word is arranged in a crossed manner, and accommodating chamber 20 can be divided as boundary by front and back using the division surface of the first separation frame 232, and accommodating chamber 20 can be with The division surface of second separation frame 231 is that boundary is divided by left and right, at this time the division surface of the second separation frame 231 and the first separation frame 232 Division surface there is a non-zero included angle, in the present embodiment, the division surface of the second separation frame 231 and the first separation frame 232 at this time Division surface it is perpendicular, specifically, separate vertical pole 231a, 231b extend along the longitudinal direction, separate cross bar 232a, 232b along a left side Right direction extends, and separates vertical pole 231a, 231b perpendicular to separation cross bar 232a, 232b.

Second separation frame 231 further includes a pair of of connecting rod 231c.Connecting rod 231c connection separate vertical pole 231a end and The end for separating vertical pole 231b, vertical pole 231a, 231b are coplanar with separating, and surround jointly with vertical pole 231a, 231b is separated One rectangle framework.

Further, the second separation frame 231 can be also slidably connected on the first separation frame 232 by adjusting component 24, That is, the second separation frame 231 can not only rotate slidably but also around vertical axes t1 relative to the first separation frame 232, to adjust accommodating chamber 20 Quantity/the size for the storage subregion that segmentation is formed.

Wherein, the second above-mentioned separation frame 231 is slidably connected on the first separation frame 232 by adjusting component 24, is had There are many implementations: first, the first separation frame 232 is not slidably attached to adjust component 24, the sliding of the second separation frame 231 Ground, which is connected to, adjusts component 24, thus the storage subregion that adjustable accommodating chamber 20 is formed by segmentation before and after the first separation frame 232 Size/quantity；Second, the first separation frame 232, which is slidably coupled to, adjusts component 24, the second separation frame 231 does not connect slideably It is connected to and adjusts component 24, thus the size for the storage subregion that adjustable accommodating chamber 20 is formed by the segmentation of the second separation frame 231 or so/ Quantity；Third, the first separation frame 232, which is slidably coupled to, adjusts component 24, and the second separation frame 231 is also slided as in the present embodiment Be connected to dynamicly adjust component 24, thus make accommodating chamber 20 divided before and after first separation frame 232 formation storage subregion and It can be conditioned by the size/quantity for the storage subregion that the segmentation of the second separation frame 231 or so is formed, flexibility is higher.

The specific structure phase of the specific structure of adjusting component 24 in the present embodiment and the adjusting component 14 in embodiment 1 Together, it repeats no more, only difference is that the mating relationship for adjusting component 24 and the first separation frame 232, the second separation frame 231, under Face describes in detail with regard to the difference.

It adjusts component 24 and is set as the cylindrical structure along a horizontal plane q ' mirror symmetry.

Adjusting component 24 includes matching with the second regulating mechanism of the first separation frame 232 mating and with the second separation frame 231 The first regulating mechanism connect.In the present embodiment, second regulating mechanism is set as two, namely matches with cross bar 232a is separated The second regulating mechanism 241a the second regulating mechanism 141a of embodiment 1 (its specific structure ginseng) for connecing and with separate cross bar 232b The second regulating mechanism 241b (the second regulating mechanism 141b of its specific structure ginseng embodiment 1) of mating；Described first adjusts machine Structure is also configured as two, namely (its specific structure joins embodiment 1 with the first regulating mechanism 242a that vertical pole 231a is coupled is separated First regulating mechanism 142a) and (its specific structure joins embodiment 1 with the first regulating mechanism 242b that vertical pole 231b is coupled is separated The first regulating mechanism 142b)；First regulating mechanism 242a matches with the second regulating mechanism 241a, the first regulating mechanism 242b Match with the second regulating mechanism 241b.

First regulating mechanism 242a includes the first passage 245a passed through for separating vertical pole 231a, when the first regulating mechanism When 242a and the assembling for separating vertical pole 231a are coupled, the first regulating mechanism 242a is along separation vertical pole 231a sliding；Likewise, first Regulating mechanism 242b includes the first passage 245b passed through for separating vertical pole 231b, as the first regulating mechanism 242b and separates vertical pole When the assembling mating of 231b, the first regulating mechanism 242b is slided along vertical pole 231b is separated.First passage 245a and first passage 245b is parallel, adjusts component 24 and is slidably coupled on the second separation frame 231.

Second regulating mechanism 241a includes the second channel 244a passed through for separating cross bar 232a, when the second regulating mechanism When 241a and the assembling for separating cross bar 232a are coupled, the second regulating mechanism 241a is along separation cross bar 232a sliding；Likewise, second Regulating mechanism 241b includes the second channel 244b passed through for separating cross bar 232b, as the second regulating mechanism 241b and separates cross bar When the assembling mating of 232b, the second regulating mechanism 241b is slided along cross bar 232b is separated.Second channel 241a and second channel 241b is parallel, adjusts component 24 and is slidingly coupled on the first separation frame 232.

Further, the first regulating mechanism 242a and the second regulating mechanism 241a is matched and each other can be around vertical axes t1 phase To rotation, in the present embodiment, (being reference with ontology 21) first regulating mechanism 242a is rotated around vertical axes t1.Likewise, the One regulating mechanism 242b and the second regulating mechanism 241b is matched and can relatively rotate each other around vertical axes t1, in the present embodiment In, (being reference with ontology 21) first regulating mechanism 242b is rotated around vertical axes t1.

Specifically, adjust component 24 further include cam structure, the cam structure be formed in first regulating mechanism and Between second regulating mechanism.In the present embodiment, the number of the cam structure is set as two, namely is formed in first Cam structure 243a between regulating mechanism 242a and the second regulating mechanism 241a, and be formed in the first regulating mechanism 242b and Cam structure 243b between second regulating mechanism 241b.Certainly, in the embodiment of variation, cam structure can be only set as One of 243a and cam structure 243b.

By taking cam structure 243a as an example, (the tool of cam structure 243b is introduced to the specific structure of the cam structure Body structural reference cam structure 243a, repeats no more).Cam structure 243a includes being formed in the first upper surface regulating mechanism 242a The wavy first concave-convex curved surface 431a ' of complete cycle and be formed in the second lower end surface regulating mechanism 241a complete cycle it is wavy Second concave-convex curved surface 423a ', the first concave-convex curved surface 431a ' and the second concave-convex curved surface 423a ' is adapted；And when the first regulating mechanism When 242a and the second regulating mechanism 241a is rotated around vertical axes t1 relative to each other, the second concave-convex curved surface 423a ' and first is concave-convex bent Face 431a ' cooperation against each other, so that the first regulating mechanism 242a and the second regulating mechanism 241a are relative to each other along the vertical direction Do separate or close reciprocal spasmodic motion.

Cam structure 243a has the second concave-convex curved surface 423a ' and the first concave-convex curved surface 431a ', and male-female engagement is extremely each other Few two minimum point positions of engagement (ginseng Fig. 9 a and Fig. 9 c) and the second concave-convex curved surface 423a ' and the first concave-convex curved surface 431a ' that The highest point abutted position (ginseng Fig. 9 b) that this convexo-convex abuts.When cam structure 243a from the minimum point position of engagement to it is described most When high point abutted position moves, the first regulating mechanism 242a and the second regulating mechanism 241a are separate along the vertical direction relative to each other； When cam structure 243a is moved from the highest point abutted position to the minimum point position of engagement, the first regulating mechanism 242a It is close along the vertical direction relative to each other with the second regulating mechanism 241a.

When the second separation frame 231 is rotated relative to the first separation frame 232 around vertical axes t1, to put object component 200 by described The process that stacked state is changed to the unfolded state (puts object component 200 by the unfolded state and is changed to the stacked state Process in contrast, repeat no more) for:

Join Fig. 9 a, when article-storage device 200 is in the stacked state, adjusts component 24 and be in the first meshing state, this When, first passage 245a, 245b and second channel 244a, 244b are parallel, correspondingly, the division surface of the first separation frame 232 with The division surface of second separation frame 231 is parallel, and cam structure 243a, 243b are in the minimum point position of engagement；

Join Fig. 9 b, when article-storage device 200 switch from the stacked state to the unfolded state, adjusting component 24 by First meshing state into critical state change procedure, cam structure 243a, 243b from the minimum point position of engagement to Highest point abutted position movement, the first regulating mechanism 242a and the second regulating mechanism 241a along the vertical direction away from each other, First regulating mechanism 242b and the second regulating mechanism 241b is along the vertical direction away from each other；Until adjusting component 24 is in critical shape State, cam structure 243a, 243b are in the highest point abutted position；Then, component 24 is being adjusted from critical state to the In two meshing state change procedures, the first regulating mechanism 242a and the second regulating mechanism 241a are close to each other along the vertical direction, the One regulating mechanism 242b and the second regulating mechanism 241b are close to each other along the vertical direction；

Join Fig. 9 c, when article-storage device 200 is in the unfolded state, adjusts component 24 and be in the second meshing state, this When, first passage 245a, 245b and second channel 244a, 244b are perpendicular, correspondingly, the division surface of the first separation frame 232 with The division surface of second separation frame 231 is perpendicular, and cam structure 243a, 243b are in another minimum point position of engagement.

Further, cam structure 243a, 243b be disposed as circumference quartering structure namely cam structure 243a, When 243b is converted between two adjacent minimum point positions of engagement, the first regulating mechanism 242a and the second regulating mechanism 241a 90 ° are rotated relative to around vertical axes t1, the first regulating mechanism 242b is rotated with the second regulating mechanism 241b relative to around vertical axes t1 90°.In turn, the second separation frame 231 rotates 90 ° around vertical axes t1 relative to the first separation frame 232, so that article-storage device 200 is in institute It states and switches between stacked state and the unfolded state, complete an overturning period.

Meanwhile cam structure 243a, 243b are converted between the minimum point position of engagement and the highest point abutted position When, the first regulating mechanism 242a and the second regulating mechanism 241a rotate 45 ° relative to around vertical axes t1, the first regulating mechanism 242b with Second regulating mechanism 241b rotates 45 ° relative to around vertical axes t1.

Further, when cam structure 243a, 243b are not in the minimum point position of engagement, component 24 is adjusted always Cam structure 243a, 243b is driven to move to the resilient urging force of the minimum point position of engagement by one, that is, the elasticity Driving force drive the first regulating mechanism 242a and the second regulating mechanism 241a have trend close to each other along the vertical direction and First regulating mechanism 242b and the second regulating mechanism 241b has trend close to each other along the vertical direction.

In the present embodiment, the resilient urging force is provided by the first separation frame 232.Specifically, the first separation frame 232 It is set as rigid, further includes a pair of of connector that connection separates the end of cross bar 232a and separates the end of cross bar 232b 232c, connector 232c and separation cross bar 232a, 232b surround a rectangle framework jointly；First regulating mechanism 242a, 242b It is fixedly connected in vertical direction.When cam structure 243a, 243b are in the minimum point position of engagement, the first separation frame 232 Without elastic deformation, separates cross bar 232a, 232b and be parallel to each other and there is initial spacing；As cam structure 243a, 243b Be not in the minimum point position of engagement (including between the minimum point position of engagement and the highest point abutted position and In the highest point abutted position) when, under the drive of second regulating mechanism 241a, 241b, separates cross bar 232a, 232b and lean on The nearly local spacing adjusted at component 24 is greater than the initial spacing and end remains described first under the drawing of connector 232c Beginning spacing, and then the first separation frame 232 has elastic deformation, and elastically-deformable first separation frame 232 occurs and is applied to adjusting group A resilient urging force on part 24.

In this way, in the overturning period that article-storage device 200 switches between the stacked state and the unfolded state: Under artificial external force, the second separation frame 231 is rotated relative to the first separation frame 232 around vertical axes t1, adjusts component 24 by first Meshing state is to critical state (or from the second meshing state to critical state) variation, and cam structure 243a, 243b are by an institute It states the minimum point position of engagement to move to the highest point abutted position, second regulating mechanism 241a, 241b is along the vertical direction each other It is separate, drive the first separation frame 232 that elastic deformation occurs；When adjusting the arrival critical state of component 24, cam structure 243a, 243b is in the highest point abutted position, and the elastic deformation of the first separation frame 232 reaches maximum；Over critical state, Under the action of the elastic restoring force of first separation frame 232, second regulating mechanism 241a, 241b is close to each other along the vertical direction, adjusts Component 24 is saved from critical state to the second meshing state (or from critical state to the first meshing state) variation, so that storing be made to fill It sets 200 and the unfolded state (or being transformed to the stacked state by the unfolded state) is transformed to by the stacked state.

Certainly, in the embodiment of variation, article-storage device 200, which may also include, provides the elastic component of the resilient urging force, The elastic component is set between first regulating mechanism and second regulating mechanism, when the cam structure is not in institute When stating the minimum point position of engagement, elastic deformation occurs for the elastic component.

Compared with prior art, the article-storage device 200 of the present embodiment can adjust the storing that the segmentation of accommodating chamber 20 is formed on demand Quantity/size of subregion；And first separation frame 232 disassembly it is easy to assembly, and stability is good in use process.

Certainly, in the embodiment of variation, first regulating mechanism may be configured as one, and upper and lower ends are respectively with one Second regulating mechanism is cooperatively connected；Alternatively, two second regulating mechanisms are set as vertical direction and are fixedly connected, two The first regulating mechanism split settings, and when the adjusting component changes from the first meshing state to critical state, two First regulating mechanism relatively close movement along the vertical direction.These variations are all without departing from skill objective of the invention.

Although this specification is described according to embodiment, not each embodiment only includes an independent technical side Case, the skilled in the art should refer to the specification as a whole, and the technical solutions in the embodiments can also be through appropriate group Close, formed it will be appreciated by those skilled in the art that other embodiments.

Claims (10)

1. a kind of article-storage device, the article-storage device includes the ontology for surrounding an accommodating chamber, a pair of of guiding mechanism and is used to divide Cutting the first separation frame of the accommodating chamber, the ontology includes bottom wall, a pair of of the first side wall and a pair of of second sidewall, and described the One separation frame is connected to the guiding mechanism, which is characterized in that the guiding mechanism rubbing board ontology and guide part, the guiding Portion and the plate ontology surround a U-lag that Open Side Down, and the guiding mechanism is by the U-lag hanging buckle in described second side The upper end surface of wall, and the guiding mechanism can be slid back and forth along the upper surface of the second sidewall to drive described first to separate Frame synchronous slide.

2. article-storage device according to claim 1, which is characterized in that when the guiding mechanism hanging buckle is in the second sidewall Upper end surface when, the guiding mechanism is limited with the second sidewall in the relative motion on left and right directions；When described When one separation frame is connected to the guiding mechanism, first separation frame and the guiding mechanism are in the opposite fortune on left and right directions It is dynamic to be limited.

3. article-storage device according to claim 1, which is characterized in that the article-storage device further includes adjusting component and use In the second separation frame for dividing the accommodating chamber, second separation frame is rotationally connected by the adjusting component around vertical axes On to first separation frame.

4. article-storage device according to claim 3, which is characterized in that relatively described first separation frame of second separation frame It rotates around the vertical axes so that the article-storage device switches between stacked state and unfolded state；When the article-storage device is in When the stacked state, the division surface of second separation frame is mutually coplanar with the division surface of first separation frame；When the storage When object device is in the unfolded state, the division surface of second separation frame and the division surface of first separation frame mutually hang down Directly.

5. article-storage device according to claim 4, which is characterized in that the adjusting component has and the stacked state phase Corresponding first meshing state, the second meshing state corresponding with the unfolded state and be located at first meshing state Critical state between second meshing state；When second separation frame and first separation frame relatively rotate, For the adjusting component by a resilient urging force, the resilient urging force drives the adjusting component to be changed by the critical state To first meshing state or second meshing state.

6. article-storage device according to claim 3, which is characterized in that the adjusting component includes:

First regulating mechanism is coupled with one of first separation frame and second separation frame；

Second regulating mechanism, wherein another mating with first separation frame and second separation frame, described first is adjusted Mechanism can be connect in relative rotation with second regulating mechanism around the vertical axes, with drive second separation frame with it is described First separation frame relatively rotates.

7. article-storage device according to claim 6, which is characterized in that the adjusting component further includes cam structure, described Cam structure includes the first concave-convex curved surface being formed on first regulating mechanism and is formed in second regulating mechanism On the second concave-convex curved surface；When first regulating mechanism and second regulating mechanism are relatively rotated around the vertical axes, Second concave-convex curved surface and the first concave-convex curved surface cooperation against each other, so that first regulating mechanism and described second Regulating mechanism is relatively distant from along the vertical direction or relatively close reciprocal spasmodic motion.

8. article-storage device according to claim 3, which is characterized in that second separation frame passes through the adjusting component also It is slidably connected on first separation frame.

9. article-storage device according to claim 8, which is characterized in that first separation frame includes extending in left-right direction And the separation cross bar for dividing the accommodating chamber, second separation frame include vertical for dividing the segmentation of the accommodating chamber Bar；The adjusting component includes first passage and second channel, and the first passage is vertical for the separation cross bar and the segmentation One of bar slidably passes through, wherein another sliding of the second channel for the separation cross bar and the segmentation vertical pole Ground passes through.

10. a kind of refrigerator, which is characterized in that the refrigerator includes article-storage device as described in any one of claims 1 to 9.