CN209893768U - Bottle seat assembly of refrigerator and refrigerator - Google Patents

Abstract

The utility model provides a bottle seat subassembly of refrigerator, include: the bottle seat is used for loading articles and is provided with an opening which is arranged upwards, and the bottle seat is arranged on a door liner of a refrigerator door of the refrigerator; and the heightening frame comprises a peripheral wall annularly extending around the central axis, and is configured to be stacked on the bottle seat in a working state, so that the vertical size of articles which can be loaded in the bottle seat is increased. The user can stack the heightening frame on the bottle seat when needing to place the strip-shaped article, and the heightening frame increases the depth of the bottle seat, so that the strip-shaped article can be well positioned. When a user needs to place small articles in the bottle seat, the heightening frame can be taken down, so that the small articles can be taken and used conveniently.

Description

Bottle seat assembly of refrigerator and refrigerator

Technical Field

The utility model relates to a storage container especially relates to a bottle seat subassembly and refrigerator of refrigerator.

Background

The bottle seat assembly of the refrigerator is arranged on a door body of the refrigerator and used for loading bottled or boxed articles. After the user opens the door, the bottle seat component is opened along with the box door, so that the user can take and use the articles.

At present, the bottle seat assembly consists of a bottle support and a bottle seat, the bottle support is integrally formed by a door liner of a refrigerator door, the bottle seat is assembled on the bottle support, and the bottle seat cannot be replaced after being assembled. Because the vertical height of bottle seat is fixed, and when the higher article of vertical height need be placed to the user, current bottle seat can't satisfy and place the demand. However, if the depth of the bottle seat is increased in the manufacturing process, the bottle seat can be inconvenient to take after articles with lower vertical height are placed in the bottle seat.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bottle seat subassembly and refrigerator of refrigerator that can height-adjusting.

Particularly, the utility model provides a bottle seat subassembly of refrigerator, include:

the bottle seat is used for loading articles and is provided with an opening which is arranged upwards, and the bottle seat is arranged on a door liner of a refrigerator door of the refrigerator;

and the heightening frame comprises a peripheral wall annularly extending around the central axis, and is configured to be stacked on the bottle seat in a working state, so that the vertical size of articles which can be loaded in the bottle seat is increased.

Further, the heightening frame is configured to extend upward along an edge of the opening in the operating state.

Furthermore, a clamping flange is arranged on the outer side surface of the peripheral wall, and the heightening frame comprises an annular upper peripheral wall positioned above the clamping flange and an annular lower peripheral wall positioned below the clamping flange;

when the heightening frame is configured in a working state, the lower peripheral wall extends into the bottle seat, the clamping flange abuts against the upper edge of the opening, and the upper peripheral wall extends upwards along the edge of the opening.

Further, the detent flange is annular disposed around a circumference of the peripheral wall.

Further, a dimension of the upper peripheral wall in a direction parallel to the central axis is equal to a dimension of the lower peripheral wall in a direction parallel to the central axis.

Further, the dimension of the upper peripheral wall in a direction parallel to the central axis is equal to the dimension of the bottle base in the vertical direction.

Furthermore, the bottle seat defines a storage chamber in a cuboid shape, and one side wall of the bottle seat is arranged in parallel with the box door;

the transverse section of the heightening frame is rectangular.

Further, still include:

egg boxes; the egg box comprises a tray body, wherein a plurality of clamping holes for clamping eggs are formed in the tray body, and the egg box is configured to be placed on the bottom wall in the bottle seat;

the sum of the vertical dimension of the tray body and the vertical dimension of the upper peripheral wall is less than the vertical depth of the containing cavity in the bottle seat.

Further, still include:

a bottle holder detachably connected to a door liner of the refrigerator;

the bottle seat has a first working state and a second working state, and is configured to be stacked on the bottle support when in the first working state and independently arranged outside the refrigerator when in the second working state.

The second aspect of the present invention further provides a refrigerator, which includes the bottle seat assembly of any one of the above embodiments.

The utility model provides a bottle seat subassembly can stack the frame that increases on the bottle seat when the user need place the article of rectangular shape, increases the degree of depth that the frame has increased the bottle seat to make the article of rectangular shape can be by good location. When a user needs to place small articles in the bottle seat, the heightening frame can be taken down, so that the small articles can be taken and used conveniently.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic perspective view of a door of a refrigerator according to an embodiment of the present invention;

fig. 2 is a schematic exploded view of a door of a refrigerator according to an embodiment of the present invention;

fig. 3 is a schematic exploded view of a combination of a first bottle mount, an egg box, and a heightening frame according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a combination of the first bottle seat, the egg box and the heightening frame according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a combination of a first bottle seat, an egg box and a heightening frame according to another embodiment of the present invention;

fig. 6 is a schematic perspective view of a combination of a first bottle mount and a second bottle mount according to an embodiment of the present invention;

fig. 7 is a schematic exploded view of a combination of a first bottle mount and a second bottle mount according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Fig. 1 to 7 show a preferred embodiment of the present invention.

The bottle base assembly in this embodiment includes a bottle base 111 and a heightening frame 130. The bottle holder 111 is used for loading articles and has an opening 1111 disposed upward. The bottle holder 111 is disposed on the door liner 11 of the refrigerator and is opened as the door 10 of the refrigerator is opened. The heightening frame 130 comprises a peripheral wall 131 extending annularly around the central axis (the term annular means that the projection of the peripheral wall 131 in a plane perpendicular to the central axis is in a closed shape, which is not limited to a circular ring shape), and when the depth of the bottle base 111 is hard to meet the requirement of placing the elongated article, a user can stack the heightening frame 130 on the bottle base 111 to increase the depth of the bottle base 111. When a user needs to place small articles in the bottle seat 111, the heightening frame 130 can be taken down, so that the small articles can be taken and used conveniently.

The upper opening 1111 of the bottle seat 111 may completely cover the top wall of the bottle seat 111 (i.e. the bottle seat 111 does not have a top wall arranged transversely, and the whole top of the bottle seat 111 is the opening 1111), or may not completely cover the top wall of the bottle seat 111, and no matter whether the upper opening 1111 of the bottle seat 111 completely covers the top wall of the bottle seat 111, the heightening frame 130 may extend upward along the edge of the opening 1111 of the bottle seat 111 after being stacked on the bottle seat 111.

In one embodiment, the outer side surface of the peripheral wall 131 of the heightening frame 130 may be provided with a retaining flange 1312, and the heightening frame 130 includes an annular upper peripheral wall 1311 located above the retaining flange 1312 (with reference to the orientation shown in fig. 3) and an annular lower peripheral wall 1313 located below the retaining flange 1312, wherein when the heightening frame 130 is stacked on the bottle base 111, the lower peripheral wall 1313 extends into the bottle base 111, the retaining flange 1312 abuts against the edge of the opening 1111 of the bottle base 111, and the upper peripheral wall 1311 extends upward along the edge of the opening 1111 of the bottle base 111. In another embodiment, the locking flange 1312 may be provided on the inner surface of the peripheral wall 131 of the height-increasing frame 130, and the peripheral wall 131 may have an upper peripheral wall 1311 located above the locking flange 1312 and a lower peripheral wall 1313 located below the locking flange 1312. When the heightening frame 130 is stacked on the bottle seat 111, the lower peripheral wall 1313 is sleeved outside the upper end of the bottle seat 111, the locking flange 1312 abuts against the edge of the upper opening 1111 of the bottle seat 111, and the upper peripheral wall 1311 extends upward along the edge of the upper opening 1111 of the bottle seat 111.

When the peripheral wall 131 of the height increasing frame 130 has the detent flange 1312, the number of the detent flanges 1312 may be one or more, and when the number of the detent flanges 1312 is one, the detent flanges may be a plate-shaped flange extending perpendicularly to the peripheral wall 131 of the height increasing frame 130, or may be a ring shape disposed around the peripheral wall 131 of the height increasing frame 130. When the number of the detent flanges 1312 is plural, it may be plural sheet-like flanges arranged around the circumferential direction of the circumferential wall 131, perpendicular to the circumferential wall 131 of the heightening frame 130.

In one embodiment, the upper peripheral wall 1311 and the lower peripheral wall 1313 of the height increasing frame 130 may have the same dimension in a direction parallel to the central axis, so that a user may select any one end of the height increasing frame 130 to extend into the bottle holder 111 when using the height increasing frame 130 (i.e., the upper peripheral wall 1311 and the lower peripheral wall 1313 of the height increasing frame 130 have the same function, and the arrangement positions of the two may be interchanged in an operating state), thereby facilitating the use of the height increasing frame 130. In another embodiment, in order to raise the height of the heightening frame 130, the upper peripheral wall 1311 of the heightening frame 130 may have a dimension in a direction parallel to the central axis larger than a dimension of the lower peripheral wall 1313 in a direction parallel to the central axis. In particular, the dimension of the upper peripheral wall 1311 parallel to the central axis may be equal to the dimension of the bottle base 111 in the vertical direction in the operating state, that is, the depth of the heightening frame 130 may be doubled after the heightening frames 130 are stacked on the bottle base 111.

The bottle holder assembly may further include an egg box 140, wherein the egg box 140 includes a tray body 141, and a plurality of clamping holes 142 for clamping eggs are formed on the tray body 141. The egg carton 140 may be placed in the bottle holder 111 in an operating state and supported by the bottom wall of the bottle holder 111. When a user needs to use the egg carton 140 and the height increasing frame 130 at the same time, in order to prevent the egg carton 140 and the height increasing frame 130 from interfering with each other, in one embodiment, the sum of the vertical dimension of the tray body 141 and the vertical dimension of the upper peripheral wall 1311 may be smaller than or equal to the vertical depth of the cavity in the bottle seat 111, so that the egg carton 140 may be placed in the bottle seat 111 while the height increasing frame 130 is stacked thereon, as shown in fig. 4. Of course, the egg carton 140 may be placed inside or outside the bottle seat 111, as shown in fig. 5, and may also be placed on the heightening frame 130, so that the storage space of the bottle seat 111 is increased.

In one embodiment, the bottle holder assembly further comprises a bottle holder 120, and the bottle holder 120 is detachably connected to the door liner 11 of the refrigerator. The bottle holder 111 is positioned on the door 10 of the refrigerator by being stacked on the bottle holder 120 ("stacked" means that no assembly structure is provided between the bottle holder 111 and the bottle holder 120, and after the bottle holder 111 is placed on the bottle holder 120, the bottle holder 120 mainly gives a vertical upward resultant force to the bottle holder 111 to balance the gravity of the bottle holder 111). Since the bottle holder 120 is detachably coupled to the door liner 11 of the refrigerator, the door liner 11 can be more easily processed than a conventional structure in which the bottle holder 120 is integrally formed with the door liner 11. Moreover, since the bottle base 111 is stacked on the bottle holder 120, the bottle base 111 does not need to be provided with any assembling structure, which facilitates the processing of the bottle base 111 and makes it more independent. In the production process of the refrigerator, the bottle holders 111 of the refrigerators with different specifications can be used interchangeably, so that the adaptability of the bottle holders 111 is enhanced, and the bottle holders 111 of the same style can be arranged on the refrigerators with different specifications. In the using process of the refrigerator, the bottle seat 111 can be taken as an independent storage container without the refrigerator, and the functionality of the bottle seat 111 is enriched. Particularly, when the bottle holder 111 is independently disposed outside the refrigerator as a storage box, since the bottle holder 120 can be detached, the space originally occupied by the bottle holder 120 and the bottle holder 111 can be used for storing articles after the door 10 of the refrigerator is covered, thereby increasing the storage space of the refrigerator.

When the bottle seat 111 is stacked on the bottle holder 120, the door opening and closing operation of the refrigerator is easy to cause the bottle seat 111 to generate a lateral displacement so that the bottle seat 111 slides down on the bottle holder 120. To make the positioning of the bottle holders 111 more stable, in one embodiment, the bottle holder 120 may include a laterally extending lift plate 121 and a surrounding wall 122 extending upward along an outer edge of the lift plate 121, the surrounding wall 122 being configured to limit the movement of the bottle holders 111 in the horizontal direction when the bottle holders 111 are stacked on the lift plate 121. That is, after the bottle seat 111 is stacked on the lifting plate 121 of the bottle holder 120, when the bottle seat 111 is displaced laterally, the surrounding wall 122 can prevent the bottle seat 111 from separating from the lifting plate 121. The height of the surrounding wall 122 depends on the specification of the bottle holder 111, and the specific height thereof may be set between 1cm and 5cm, for example, 1cm, 3cm or 5 cm. The size of the lifting plate 121 may be determined according to the internal space of the refrigerator, and in one embodiment, the cross-sectional size of the space enclosed by the lifting plate 121 and the surrounding wall 122 is exactly equal to the size of the transverse section of the bottle seat 111, that is, the lower end of the bottle seat 111 is exactly embedded in the space enclosed by the lifting plate 121 and the surrounding wall 122, and when the bottle seat 111 is positioned, it cannot generate displacement in the horizontal direction. In another embodiment, the horizontal dimensions of the lifting plate 121 may be larger than the horizontal dimensions of the bottle holder 111, so that the bottle holder 120 can be adapted to the bottle holder 111 of other refrigerators with larger dimensions.

In one embodiment, the bottle seat assembly may have two or more bottle seats 111, and the two or more bottle seats 111 are stacked up and down for use, i.e., two bottle seats 111 may be placed on one bottle holder 120, so as to enhance the storage capacity of the bottle seat assembly of the refrigerator. For convenience of description, the bottle holder disposed below will be referred to as a first bottle holder 111, and the bottle holder stacked on the first bottle holder 111 will be referred to as a second bottle holder 112. Specifically, the first bottle holder 111 described below is actually the bottle holder stacked on the bottle holder 120 described above.

In order to facilitate the processing and manufacturing of the first bottle seat 111 and the second bottle seat 112, in one embodiment, the first bottle seat 111 and the second bottle seat 112 may have the same shape, size and structure. Therefore, only one bottle seat is required to be opened, so that the production cost is reduced, and the first bottle seat 111 and the second bottle seat 112 are convenient to process. When the first bottle seat 111 and the second bottle seat 112 have the same shape, structure and size, the only difference between the two is the position of the first bottle seat 111 and the second bottle seat 112, i.e. the bottle seat arranged below is the first bottle seat 111 and the bottle seat arranged above is the second bottle seat 112.

When the second bottle holder 112 is stacked on the first bottle holder 111, in order to prevent the second bottle holder 112 from moving laterally, the opening 1111 of the first bottle holder 111 is located above the second bottle holder, and the lower plate of the second bottle holder 112 is engaged with the edge of the upper opening 1111 of the first bottle holder 111, so as to limit the horizontal movement of the second bottle holder 112.

When the shape and size of the second bottle seat 112 are completely the same as those of the first bottle seat 111, the second bottle seat 112 is stacked at the opening 1111 above the first bottle seat 111, which may cause the inconvenience of taking the articles in the first bottle seat 111 (the second bottle seat 112 needs to be lifted when the articles are taken and placed in the first bottle seat 111), and may shorten the vertical height of the articles that can be stored in the first bottle seat 111 (the height of the articles stored in the first bottle seat 111 is limited by the second bottle seat 112). The utility of the first bottle holder 111 is reduced. In order to solve the above-mentioned drawbacks, in one embodiment, as shown in fig. 6, the upper opening 1111 of the first bottle seat 111 includes a stacking area and a material taking area, the horizontal cross-section of the second bottle seat 112 is smaller than that of the first bottle seat 111, and the second bottle seat 112 is disposed at the stacking area of the first bottle seat 111. Thus, articles with a lower vertical height can be placed in the space of the first bottle seat 111 below the stacking area, and articles with a higher vertical height can be placed in the space of the first bottle seat 111 below the article taking area. In addition, the user may take the article in the first bottle holder 111 through the article-taking region of the opening 1111 of the first bottle holder 111, so that the user does not lift the second bottle holder 112 when taking the article in the first bottle holder 111.

It should be noted that the division of the stacking area and the picking area of the opening 1111 of the first bottle holder 111 depends on the actual placement position of the second bottle holder 112. That is, where the second bottle holder 112 is stacked in the opening 1111 of the first bottle holder 111, it can be called a stacking area, and the other parts of the opening 1111 are called a picking area.

In one embodiment, as shown in fig. 1-2, the first bottle holder 111 and the second bottle holder 112 may each define a storage chamber having a rectangular parallelepiped shape, and when the first bottle holder 111 is in the first working state, one of the vertically arranged side walls of the first bottle holder 111 and the second bottle holder 112 is arranged parallel to the refrigerator door 10 of the refrigerator, and the first bottle holder 111 and the second bottle holder 112 have the same dimension along a direction perpendicular to the refrigerator door 10 of the refrigerator. In addition, when the first bottle holder 111 is in the first operating state, the first bottle holder 111 and the second bottle holder 112 may have the same vertical dimension. Further, when the first bottle holder 111 and the second bottle holder 112 both define a storage chamber in a rectangular parallelepiped shape, and when the second bottle holder 112 does not completely cover the opening 1111 of the first bottle holder 111, a dimension of the first bottle holder 111 in a direction parallel to the first direction X, which is a direction horizontal and parallel to the door 10 of the refrigerator, may be twice as large as a dimension of the second bottle holder 112 in a direction parallel to the first direction X. When the space defined by the first bottle seat 111 is rectangular, the opening 1111 of the first bottle seat 111 may be rectangular, and the transverse cross-section of the heightening frame 130 is also rectangular.

When the articles are too deep to meet the requirement of the first bottle seat 111, in addition to the height-increasing frame 130, as shown in fig. 1-2, the bottle seat assembly may further include a third bottle seat 113 having a vertical dimension larger than that of the first bottle seat 111. When the depth of the first bottle seat 111 cannot meet the requirement, the third bottle seat 113 can be used to replace the first bottle seat 111.

Specifically, the number of the bottle holders 120 in the bottle base assembly is two or more, and two or more bottle holders 120 are spaced up and down on the door liner 11 of the refrigerator. Meanwhile, the number of the first bottle holders 111 is the same as that of the bottle holders 120, and when each first bottle holder 111 is in the first working state, the first bottle holders are stacked on each bottle holder 120 in a one-to-one correspondence manner. As shown in fig. 1, the bottle base assembly has three bottle holders 120, one on each bottle holder 120, and a first bottle base 111 is stacked on each bottle holder 120. The bottle seat assembly may only have one first bottle seat 111, one heightening frame 130 or one third bottle seat 113, or the number of the first bottle seats 111, the number of the heightening frames 130 or the number of the third bottle seats 113 may be equal to the number of the first bottle seats 111.

The second aspect of the present invention further provides a refrigerator, which includes the bottle seat assembly in any one of the above embodiments. As shown in fig. 1, three bottle holders 120 are disposed on the door liner 11 of the refrigerator door 10, a first bottle seat 111 is disposed on each of the upper bottle holder 120 and the middle bottle holder 120, and a third bottle seat 113 is disposed on the lower bottle holder 120. In other embodiments, a first bottle seat 111 may be correspondingly disposed on each bottle holder 120, and a height-increasing frame 130 and a second bottle seat 112 may be further disposed thereon. The heightening frame 130 and the second bottle seat 112 can be correspondingly arranged on one of the first bottle seats 111 according to requirements. Of course, in order to satisfy the storage requirement to the maximum extent, in other embodiments, three heightening frames 130 and three second bottle holders 112 may be provided.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A bottle seat assembly of a refrigerator, comprising:

the bottle seat is used for loading articles and is provided with an opening which is arranged upwards, and the bottle seat is arranged on a door liner of a refrigerator door of the refrigerator;

a booster frame including a peripheral wall extending annularly about a central axis, the booster frame configured to operatively stack on the bottle base such that a vertical dimension of articles loadable in the bottle base is increased.

2. The bottle mount assembly of claim 1,

the heightening frame is configured to be arranged extending upward along an edge of the opening in the operating state.

3. The bottle mount assembly of claim 1,

the outer side surface of the peripheral wall is provided with a clamping flange, and the heightening frame comprises an annular upper peripheral wall positioned above the clamping flange and an annular lower peripheral wall positioned below the clamping flange;

when the heightening frame is configured to be in the working state, the lower peripheral wall extends into the bottle seat, the clamping flange abuts against the upper edge of the opening, and the upper peripheral wall extends upwards along the edge of the opening.

4. The bottle mount assembly of claim 3,

the detent flange is annular and is disposed around the circumference of the peripheral wall.

5. The bottle mount assembly of claim 3,

a dimension of the upper peripheral wall in a direction parallel to the central axis is equal to a dimension of the lower peripheral wall in a direction parallel to the central axis.

6. The bottle mount assembly of claim 3,

the dimension of the upper peripheral wall in a direction parallel to the central axis is equal to the dimension of the bottle base in the vertical direction.

7. The bottle mount assembly of claim 3,

the bottle seat defines a storage chamber in a cuboid shape, and one side wall of the bottle seat is arranged in parallel to the box door;

the transverse section of the heightening frame is rectangular.

8. The bottle holder assembly of claim 3, further comprising:

egg boxes; the egg box comprises a tray body, wherein a plurality of clamping holes for clamping eggs are formed in the tray body, and the egg box is configured to be placed on the bottom wall in the bottle seat;

the sum of the vertical dimension of the tray body and the vertical dimension of the upper peripheral wall is smaller than the vertical depth of the accommodating cavity in the bottle seat.

9. The bottle holder assembly of claim 1, further comprising:

a bottle holder connected to a door liner of the refrigerator;

the bottle seat is provided with a first working state and a second working state, the bottle seat is configured to be stacked on the bottle support when in the first working state, and is separately arranged outside the refrigerator when in the second working state.

10. A refrigerator is characterized in that a refrigerator body is provided with a refrigerator door,

comprising the bottle holder assembly of any one of claims 1-9.

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