CN214701387U - Storage structure and refrigeration equipment - Google Patents

Abstract

The application provides a storing structure and refrigeration plant. The storing structure includes: a case having an accommodating chamber; the first shelf is movably arranged in the box body; the support is movably arranged in the box body and used for supporting the first shelf, and the support is also used for limiting the first shelf on one side of the accommodating cavity. Through the technical scheme, the convenience of the shelf in the refrigeration equipment is improved, the shelf can be assembled and disassembled, the shelf can be stored conveniently, and the storage space in the refrigeration equipment can be better utilized.

Description

Storage structure and refrigeration equipment

Technical Field

The application belongs to the technical field of refrigeration engineering, concretely relates to storing structure and refrigeration plant.

Background

The refrigerator has limited use space due to various factors such as the structure and the space of the refrigerator, and the space for placing articles at each level is limited due to the fixed position of the glass shelf of the common refrigerator. When a user needs to place a large-volume object such as beverage, watermelon and the like, a part of the glass shelf must be detached and taken out to increase the storage space, which brings great inconvenience to the use of the consumer.

SUMMERY OF THE UTILITY MODEL

Embodiments according to the present application aim to ameliorate at least one of the technical problems of the prior art or the related art.

In view of the above, an object of the embodiments according to the present application is to provide a storage structure.

It is another object according to embodiments of the present application to provide a refrigeration device.

In order to achieve the above object, an embodiment according to a first aspect of the present application provides a storage structure including: a case having an accommodating chamber; the first shelf is arranged in the accommodating cavity and used for placing objects; the support links to each other with first shelf, and the support is rotationally located in the box, and first shelf can rotate to first position or second position along with the support.

Embodiments according to a second aspect of the present application provide a refrigeration device comprising: the refrigerating chamber comprises the storage structure in the technical scheme of the first aspect.

According to the storing structure that embodiment of this application provided, its first shelf can rotate to first position or second position along with the support, is convenient for like this according to the needs of storage article, and the position of nimble adjustment first shelf just correspondingly can adjust the spatial arrangement who holds the intracavity to promote the convenience of storing. Further, because first shelf and support link to each other, during the position adjustment of first shelf, need not take out and put outside the box, do not need the user to look for the place outside the box and deposit first shelf like this, for the user has reduced the trouble, first shelf is put in the box all the time in addition, can also avoid putting the possibility of damaging when outside, has promoted the convenience that first shelf used by a wide margin.

Additional aspects and advantages of embodiments in accordance with the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of embodiments in accordance with the present application.

Drawings

FIG. 1 is a schematic illustration of a partially exploded view of a storage structure according to one embodiment provided herein;

FIG. 2 is a perspective view of a storage structure according to one embodiment provided herein;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a perspective view of a storage structure according to another embodiment provided herein;

FIG. 5 is an enlarged schematic view of the portion B of FIG. 4;

FIG. 6 is a schematic partial perspective view of a refrigeration unit according to an embodiment provided herein.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

10 storing structure, 100 boxes, 1000 diapalls, 1002 lateral walls, 1006 clearance, spacing hole of 1008, 102 first shelf, 104 second shelf, 106 third shelf, 120 supports, 1200 first supporting part, 1202 second supporting part, 1204 spacing portion, 1206 shaft hole, 1208 spacing groove, 140 round pin axles, 20 refrigeration plant, 200 walk-in.

Detailed Description

In order that the above objects, features and advantages of embodiments according to the present application may be more clearly understood, embodiments according to the present application will be described in further detail below with reference to the accompanying drawings and detailed description. It should be noted that features of embodiments according to the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth to provide a thorough understanding of embodiments according to the present application, however, embodiments according to the present application may be practiced in other ways than those described herein, and therefore the scope of protection afforded by embodiments according to the present application is not limited by the specific embodiments disclosed below.

Some embodiments provided in accordance with the present application are described below with reference to fig. 1-6.

Example 1

As shown in fig. 1 to 5, according to an embodiment of the first aspect of the present application, there is provided a storage structure 10 including a case 100, a first shelf 102, and a stand 120.

Specifically, the case 100 has a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided in the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In this embodiment, the first shelf 102 can rotate to the first position or the second position along with the bracket 120, so that the position of the first shelf 102 can be flexibly adjusted according to the requirement of the stored objects, and accordingly, the spatial arrangement of the accommodating cavity can be adjusted, thereby improving the convenience of storage. Further, since the first shelf 102 is connected to the bracket 120, the first shelf 102 does not need to be taken out and put out of the box 100 during position adjustment of the first shelf 102, so that a user does not need to find a place outside the box 100 to store the first shelf 102, which reduces the trouble for the user, and the first shelf 102 is always put in the box 100, thereby avoiding the possibility of damage when being put outside, and greatly improving the convenience of using the first shelf 102.

Example 2

Another storage structure 10 is provided according to an embodiment of the first aspect of the present application, and includes a box 100, a first shelf 102, and a stand 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

The stand 120 is disposed at the bottom of the accommodating cavity, and in the first position, the first shelf 102 is used for placing objects, and the stand 120 is used for supporting the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

In this embodiment, when the first shelf 102 is rotated to the first position, the receiving cavity can be divided, so that the space of the receiving cavity can be divided, thereby facilitating the classified storage of the articles. In the second position, the first shelf 102 is positioned against the side wall 1002, i.e., the first shelf 102 can be stowed away so that the separate spaces merge again to facilitate storage of an enlarged volume of items.

Specifically, first shelf 102 may rotate with stand 120 to a first position. Like this, when article or the article volume is less are deposited in needs classification, can rotate first shelf 102 to the first position, will hold the chamber and separate for the less sub-chamber of several volumes to in the article that small, the quantity is many can place different sub-chambers respectively according to the classification, the article classification management of being convenient for is got and is put. Since the bracket 120 is disposed at the bottom of the accommodating cavity, the bracket 120 can be supported by the bottom wall 1000, so that the bracket 120 can support the first shelf 102, and the first shelf 102 can be maintained at the first position, thereby achieving the state of dividing the accommodating cavity. For example, when the storage structure 10 is placed on the ground or a horizontally mounted structure, the first shelf 102 may be supported by the bracket 120 to be horizontally placed so as to carry articles. Further, since the first rack 102 can rotate to the second position along with the bracket 120, the position of the first rack 102 can be adjusted when the large-volume articles need to be stored. That is, the first shelf 102 can be disposed at one side of the receiving cavity and abut against the sidewall 1002 of the box 100, so as to combine the plurality of sub-cavities divided before, that is, combine several small spaces into a large space, so as to store articles with a larger volume, thereby improving the convenience of storing the articles. Meanwhile, the bracket 120 drives the first shelf 102 to rotate to the second position, the first shelf 102 is attached to the sidewall 1002 of the accommodating cavity, and the bracket 120 is connected to the first shelf 102 at the second position, so that the bracket 120 also plays a role in supporting the first shelf 102, and the first shelf 102 is prevented from falling down. In this way, the first shelf 102 abuts against the side wall 1002 of the box 100, so that a large storage space is provided, and meanwhile, the first shelf 102 does not need to be taken out of the box 100 and is still placed in the accommodating cavity, so that a storage space or a storage position of the first shelf 102 does not need to be found out of the accommodating cavity, and the convenience in use of the storage structure 10 is improved.

The rack 120 is disposed at the bottom of the receiving cavity, so that the rack 120 is supported by the bottom wall 1000 of the receiving cavity to support the first shelf 102.

In other embodiments, a second shelf 104 is also disposed within the receiving cavity. When the first shelf 102 is horizontally placed for carrying articles, the second shelf 104 is disposed at the bottom of the first shelf 102, and the two shelves are spaced apart from each other. When rack 120 supports first shelf 102, the bottom of rack 120 rests on second shelf 104, and rack 120 is supported by second shelf 104.

Example 3

Embodiments according to a first aspect of the present application provide a storage structure 10, including a box 100, a first shelf 102, and a stand 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

Further, as shown in fig. 2 and 3, the stand 120 includes a first support portion 1200. In the first position, the first supporting portion 1200 is used for supporting the first shelf 102 so that the first shelf 102 can accommodate objects. In the second position, the first support 1200 also serves to support the first shelf 102 so that all shelves 102 can rest against the side walls 1002 without falling down.

In this embodiment, the first shelf 102 can be rotated to the first position, and the first shelf 102 can be used to divide the containing cavity so that the space of the containing cavity can be separated to facilitate the classified storage of the articles, and can also be rotated to the second position to facilitate the collection of the articles, so that the separated spaces can be combined again to facilitate the storage of the articles with enlarged volume.

By providing the first supporting portion 1200, it is convenient to provide a support for the first shelf 102, so that the first shelf 102 can be maintained at the first position, that is, the position of the separated accommodating cavity, and thus, the separated sub-cavities, or sub-spaces, can maintain a certain stability, which is convenient for storage. Since the stand 120 is rotatably disposed in the box 100, the first supporting portion 1200 can also be used to support the first shelf 102 when the first shelf 102 is located at the second position, so as to prevent the first shelf 102 from falling down. That is to say, when large-volume articles need to be stored, the first shelf 102 can be rotated to the second position, so that the first shelf 102 moves to one side of the accommodating cavity to abut against the side wall 1002 of the box body 100, and the first supporting portion 1200 of the bracket 120 abuts against the first shelf 102, so that the first shelf 102 is kept not to move on one side of the accommodating cavity, the first shelf 102 is prevented from being divided from the accommodating cavity, the stability of a large space in the accommodating cavity is kept, and the large-volume articles can be stored conveniently. In addition, the first support part 1200 is used for supporting the first shelf 102 at the first position and the second position, and only a certain movement of the support 120 is needed, so that two functions are realized by one component, the number of components is reduced, materials and processes are saved, space is saved, and the volume of the storage structure 10 is increased.

Example 4

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 comprising a box 100, a first shelf 102 and a stand 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

The stand 120 includes a first support portion 1200 and a second support portion 1202. The first support 1200 is for supporting the first shelf 102. The second support portion 1202 is disposed on the first support portion 1200. The second support portion 1202 is used to support the first support portion 1200 in the second position, or the second support portion 1202 is used to cooperate with the first support portion 1200 to better abut the first shelf 102 against one side of the receiving cavity.

As shown in fig. 4 and 5, when the first shelf 102 is rotated to the second position, it abuts the sidewall 1002 of the receiving cavity. It is easy to tip over because it only abuts against the side wall 1002. And is coupled to the first support part 1200, so that the first shelf 102 can be prevented from falling over by the coupling of the first support part 1200. However, when only the first support portion 1200 is provided, the first support portion 1200 is liable to droop and is only allowed to abut against a lower position of the first shelf 102, which may cause the first shelf 102 to fall over. By providing the second supporting portion 1202 and supporting the first supporting portion 1200 at the second position, the stability and reliability of the operation of the first supporting portion 1200 can be ensured. Meanwhile, due to the support of the second support portion 1202, the first support portion 1200 is advantageously cushioned by a certain height, that is, the first support portion 1200 can be limited at a position substantially in the middle of the first shelf 102. Thus, when the second position is reached, the position of the first supporting portion 1200 is raised, the first shelf 102 is prevented from being unstably fallen down, and the stability and reliability of the first shelf 102 in the second position are improved.

Example 5

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 comprising a box 100, a first shelf 102 and a stand 120. The stand 120 is rotatably coupled to the side wall 1002 of the case 100.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

Specifically, as shown in fig. 1, the bracket 120 is provided with a shaft hole 1206, and the case 100 is provided with a mounting hole. Storage structure 10 further includes a pin 140. The pin 140 may be inserted into the mounting and shaft hole 1206. The bracket 120 is rotatably connected to the case 100 by the engagement of the pin 140, the shaft hole 1206 and the mounting hole.

After the pin 140 is inserted into the mounting hole through the shaft hole 1206, the bracket 120 can be relatively fixed on the box 100, and the bracket 120 can rotate relative to the box 100. That is to say, through the cooperation of the pin shaft 140, the shaft hole 1206 and the mounting hole, the bracket 120 can be limited at a certain position, so that the bracket 120 maintains a certain stability, and meanwhile, the bracket 120 can rotate at the certain position, so that the first shelf 102 can be switched between the first position and the second position, and the support function of the bracket 120 at different positions can be realized. The structure is simple, the installation is easy, the pin shaft 140 can be relatively fixed to the bracket 120 only by being inserted into the shaft hole 1206 and the installation hole, and the rotation of the bracket 120 is not influenced.

It will be appreciated that the pin 140 may simply be inserted into the shaft hole 1206, the mounting hole, bolted to the shaft hole 1206, the mounting hole, or otherwise connected thereto.

Example 6

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 including a case 100, a first shelf 102, a bracket 120, and a pin 140. The stand 120 is rotatably coupled to the side wall 1002 of the case 100.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

In this embodiment, the first shelf 102 can rotate to the first position or the second position along with the bracket 120, so that the position of the first shelf 102 can be flexibly adjusted according to the requirement of the stored objects, and accordingly, the spatial arrangement of the accommodating cavity can be adjusted, thereby improving the convenience of storage. Further, since the first shelf 102 is connected to the bracket 120, the first shelf 102 does not need to be taken out and put out of the box 100 during position adjustment of the first shelf 102, so that a user does not need to find a place outside the box 100 to store the first shelf 102, which reduces the trouble for the user, and the first shelf 102 is always put in the box 100, thereby avoiding the possibility of damage when being put outside, and greatly improving the convenience of using the first shelf 102.

The bracket 120 is rotatably connected with the side wall 1002 of the box body 100, so that the structure is simple and the movement is convenient. And the support 120 is connected with the side wall 1002, so that the position is at the edge of the accommodating cavity, articles in the accommodating cavity can be avoided, and storage is facilitated. The rotating manner facilitates the bracket 120 to drive the first shelf 102 to switch between the first position and the second position, and also facilitates the first supporting portion 1200 to support the first shelf 102 between two different positions, thereby improving the convenience of the bracket 120 in use.

Specifically, the bracket 120 is provided with a shaft hole 1206, and the case 100 is provided with a mounting hole. Storage structure 10 further includes a pin 140. The pin 140 has a screw structure, and the mounting hole has a screw portion, and the pin 140 is detachably connected to the case 100 by the engagement of the screw structure and the screw portion. The bracket 120 is rotatably connected to the case 100 by the engagement of the pin 140, the shaft hole 1206 and the mounting hole.

In this embodiment, the pin 140 is provided with a threaded structure, and the mounting hole is provided with a threaded portion, so that the pin 140 and the box 100 can be bolted together easily and can be easily assembled and disassembled. In addition, the bolted connection mode is favorable for improving the stability and reliability of the connection between the bracket 120 and the box body 100, and the first shelf 102 is prevented from falling down due to the fact that the first shelf 102 falls down when in the second position.

Example 7

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 comprising a box 100, a first shelf 102 and a stand 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used for storage and the stand 120 is used for supporting the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

As shown in fig. 3 and 5, the bracket 120 includes a first support portion 1200, a second support portion 1202, and a stopper portion 1204. The first support 1200 is for supporting the first shelf 102. The second support portion 1202 is disposed on the first support portion 1200. The second support 1202 is configured to support the first support 1200 in the second position, or the second support 1202 is configured to engage the first support 1200 to better retain the first shelf 102 in the second position. The position-limiting portion 1204 is provided with a shaft hole 1206, and the position-limiting portion 1204 is further connected to the first supporting portion 1200. The limiting portion 1204 is further provided with a limiting structure. The case 100 is provided with a stopper hole 1008. The pin 140 is also used to penetrate through the limiting structure and the limiting hole 1008 and limit the rotation of the bracket 120.

When the first shelf 102 rotates with the bracket 120 to the second position, it abuts against the sidewall 1002 of the receiving cavity. It is easy to tip over because it only abuts against the side wall 1002. And is advantageous in preventing the first shelf 102 from falling over by being connected to the first supporting part 1200. However, when only the first support portion 1200 is provided, the first shelf 102 is subjected to a large force, which easily causes the first shelf 102 to fall over. By providing the second supporting portion 1202 and supporting the first supporting portion 1200 at the second position, the stability and reliability of the operation of the first supporting portion 1200 can be ensured. Meanwhile, due to the support of the second support portion 1202, the first support portion 1200 is advantageously lifted up to a certain height, that is, the first support portion 1200 may be connected to the first shelf 102 at a position substantially in the middle of the first shelf 102. In this way, when in the second position, the first shelf 102 is prevented from being unstably fallen down, and the stability and reliability of the first shelf 102 in the second position are improved.

Through setting up spacing portion 1204, shaft hole 1206 sets up on spacing portion 1204, and first supporting part 1200 is connected with spacing portion 1204 moreover, and when round pin axle 140 penetrated shaft hole 1206, just can fix spacing portion 1204, can also injure the position of first supporting part 1200 simultaneously. Thus, the bracket 120 can be fixed or limited relatively by adopting a single component, which is simple and convenient. Furthermore, the limiting structure is arranged on the limiting portion 1204, and the limiting hole 1008 is arranged on the box body 100, so that when the rotation of the bracket 120 needs to be limited, the pin shaft 140 can be detached from the shaft hole 1206 and the mounting hole, and then the pin shaft 140 is mounted on the limiting structure and the limiting hole 1008, so that the rotation of the bracket 120 is limited by fixing the limiting portion 1204, and the stability of the bracket 120 supporting the first shelf 102 is improved.

It should be noted that the number of the pins 140 may be one or two. With one pin 140, the one pin 140 can be installed in the shaft hole 1206 and the installation hole when the bracket 120 is required to rotate. When the bracket 120 is required not to rotate, the pin 140 can be detached from the shaft hole 1206 and the mounting hole and mounted in the limiting structure and the limiting hole 1008. When two pin shafts 140 are adopted, one pin shaft 140 can be installed in the shaft hole 1206 and the installation hole, the other pin shaft 140 is standby, and when the rotation of the support 120 needs to be limited, the standby pin shaft 140 is installed in the limiting structure and the limiting hole 1008.

Further, one end of the limiting portion 1204 is connected to the first supporting portion 1200, and the other end of the limiting portion 1204 is provided with a shaft hole 1206. A limiting structure is arranged between two ends of the limiting portion 1204, or the limiting structure is arranged between two ends of the limiting portion 1204. In addition, a second shelf 104 is further arranged in the box body 100, and the limiting portion 1204 is positioned on the second shelf 104. Since the shaft hole 1206 is at one end of the limiting portion 1204, the limiting portion 1204 can rotate when the pin 140 is installed in the shaft hole 1206 and the installation hole. As long as the pin 140 is installed in the limiting structure and the limiting hole 1008, the limiting portion 1204 cannot rotate, and accordingly, the bracket 120 cannot rotate, so that the stability and reliability of the first support portion 1200 supporting the first shelf 102 can be ensured.

In some embodiments, the limiting structure is a limiting groove 1208, which facilitates the installation of the pin shaft 140, and the structure is simple and easy to process. By adopting the structure of the limiting groove 1208, the requirement of the coaxiality of the limiting groove 1208 and the limiting hole 1008 can be reduced, so that the installation difficulty of the pin shaft 140 can be reduced, and the convenience and the assembly efficiency of the pin shaft 140 assembly can be improved when the support 120 is limited to rotate.

In other embodiments, the limiting structure is a limiting hole 1008, which also facilitates the installation of the pin shaft 140, and has a simple structure and is easy to machine.

Example 8

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 comprising a box 100, a first shelf 102, a second shelf 104, and a stand 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

More specifically, the stand 120 includes a first support portion 1200, a second support portion 1202, and a stopper portion 1204. And the position-limiting portion 1204 and the second supporting portion 1202 are located on the same side of the first supporting portion 1200. One end of the limiting portion 1204 is connected to the first supporting portion 1200, and the other end of the limiting portion 1204 is provided with a shaft hole 1206. A limit groove 1208 is arranged between the two ends of the limit portion 1204.

The first support 1200 is for supporting the first shelf 102. The second support portion 1202 is disposed on the first support portion 1200. The second supporting portion 1202 and the position-limiting portion 1204 are disposed on the same side of the first supporting portion 1200 so as to support the first supporting portion 1200 at the second position. The position-limiting portion 1204 is provided with a shaft hole 1206, and the position-limiting portion 1204 is further connected to the first supporting portion 1200. The position-limiting portion 1204 is further provided with a position-limiting groove 1208. The case 100 is provided with a stopper hole 1008. The pin 140 is also used to penetrate through the limiting groove 1208 and the limiting hole 1008 and limit the rotation of the bracket 120.

When the first shelf 102 is in the second position, it is easy to tip over when abutting against the side wall 1002 of the receiving cavity. And the connection and support of the first support 1200 are advantageous to prevent the first shelf 102 from falling over. However, when only the first support portion 1200 is provided, the first support portion 1200 and the first shelf 102 are subjected to a large force, which easily causes the first shelf 102 to fall over. By providing the second support portion 1202 and the limiting portion 1204 and supporting the first support portion 1200 at the second position, the stability and reliability of the operation of the first support portion 1200 can be ensured. Meanwhile, due to the support of the second support portion 1202 and the limiting portion 1204, the first support portion 1200 is advantageously cushioned to a certain height, that is, the first support portion 1200 can be located at a position substantially in the middle of the first shelf 102. Like this, when first supporting part 1200 carries on spacingly to first shelf 102, be favorable to avoiding first shelf 102 unstability to fall down, promoted the spacing stability and the reliability of first supporting part 1200.

The limiting portion 1204 and the second supporting portion 1202 are located on the same side of the first supporting portion 1200, so that the limiting portion 1204 and the second supporting portion 1202 support the first supporting portion 1200 together. That is, the first supporting part 1200 has at least two supporting points. Adopt two strong points to support first supporting part 1200, be favorable to promoting the spacing stability of first supporting part 1200. And spacing portion 1204 also supports first supporting portion 1200, when the second position, is favorable to further promoting the height of first supporting portion 1200, makes first supporting portion 1200 connect the position that is comparatively close to the middle part on first shelf 102 to the motion of first shelf 102 is restricted better, avoids first shelf 102 to topple over.

Example 9

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 comprising a box 100, a first shelf 102, a second shelf 104, and a stand 120.

The case 100 has a bottom wall 1000. The case 100 also has a side wall 1002. The bottom wall 1000 and the plurality of side walls 1002 of the box 100 enclose a receiving cavity. First shelf 102, second shelf 104, and stand 120 are all disposed within the receiving cavity. Both the first shelf 102 and the second shelf 104 are used for storage. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

As shown in fig. 3, when the first shelf 102 divides the accommodating cavity at the first position, the limiting portion 1204 of the bracket 120 abuts against the second shelf 104, and as shown in fig. 5, when the first shelf 102 abuts against the side wall 1002 at the second position, the second supporting portion 1202 of the bracket 120 abuts against the second shelf 104, and the limiting portion 1204 also abuts against the second shelf 104.

Further, the case 100 has an opening. A gap 1006 is formed between the side wall 1002 of the case 100 opposite to the opening and the second shelf 104, and the gap 1006 is used for inserting the first shelf 102.

Through setting up second shelf 104, be convenient for increase the sub-chamber in holding the chamber, promote the convenience that article classification was deposited. A gap 1006 is formed between the side wall 1002 opposite to the opening and the second shelf 104 on the box 100, so that the first shelf 102 can be inserted conveniently, the first shelf 102 can be attached to one side of the accommodating cavity, and a plurality of sub-cavities originally divided by the first shelf 102 can be combined into a large cavity, so that articles with large volumes can be stored conveniently. Meanwhile, the first shelf 102 is inserted into the gap 1006, and a place for placing the first shelf 102 does not need to be found outside the box 100, so that the use convenience of the storage structure 10 is improved. Further, the first shelf 102 is inserted in the gap 1006, with its bottom resting on the bottom wall 1000 of the cabinet 100. Both can carry on spacingly through second shelf 104 to first shelf 102, and first supporting part 1200 carries on spacingly to second shelf 104 in addition simultaneously, and first shelf 102 has just had two structures of second shelf 104, first supporting part 1200 at least like this and has carried on spacingly to the stability of first shelf 102 subsides in holding chamber one side has been promoted.

As shown in fig. 6, it is understood that the storage structure 10 may also include a third shelf 106, a fourth shelf, or more. The first shelf 102, the second shelf 104, the third shelf 106, and the like may be glass shelves, plastic shelves, metal shelves, or composite shelves.

In some embodiments, a third shelf 106 is disposed at the bottom of second shelf 104. When first shelf 102 is inserted into gap 1006, its bottom rests on third shelf 106.

In some embodiments, the number of brackets 120 is plural. The arrangement of the plurality of brackets 120 is beneficial to improving the reliability of support and spacing of the brackets 120, so as to improve the stability of the first shelf 102 for carrying articles, or the stability of the first shelf 102 attached to one side of the accommodating cavity.

Example 10

According to yet another embodiment of the first aspect of the present application, there is provided a storage structure 10 including a case 100, a first shelf 102, a bracket 120, and a pin 140. The bracket 120 is rotatably connected to the case 100, and a protrusion is provided on the case 100. The protrusion serves to restrict the rotation of the bracket 120.

Specifically, the case 100 has a receiving cavity. The case 100 has a bottom wall 1000 and side walls 1002. The bottom wall 1000 and the side wall 1002 enclose a receiving cavity. The first shelf 102 is disposed within the receiving cavity. The first shelf 102 is used for placing objects. A bracket 120 is coupled to first shelf 102. The stand 120 is rotatably provided on a sidewall of the case 100. First shelf 102 may rotate with stand 120 to a first position or a second position.

In the first position, the first shelf 102 is used to hold items and the stand 120 is used to support the first shelf 102. In this way, in the first position, the first shelf 102 can divide the receiving cavity such that the receiving cavity is divided into several small sub-spaces. In the second position, the first shelf 102 abuts the side wall 1002 of the housing 100.

The bracket 120 includes a first support portion 1200, a second support portion 1202, and a stopper portion 1204. One end of the limiting portion 1204 is provided with a shaft hole 1206, the box body 100 is provided with a mounting hole, and the pin shaft 140 is inserted into the shaft hole 1206 and the mounting hole, so that the bracket 120 can rotate around the pin shaft 140. The other end of the limiting portion 1204 is connected to the first supporting portion 1200, the second supporting portion 1202 is disposed on the first supporting portion 1200, and the limiting portion 1204 and the second supporting portion 1202 are located on the same side of the first supporting portion 1200.

Further, a protrusion is provided on the case 100. The protrusion is used to limit the rotation of the position-limiting portion 1204, and accordingly, the rotation of the bracket 120 is limited. The box 100 is made of an elastic material, and when the first shelf 102 is required to be located at the first position and the accommodating cavities are divided to store smaller articles in a classified manner, the bracket 120 rotates to enable the first supporting portion 1200 to be in an upright state, so that the first shelf 102 can be supported. When the bracket 120 rotates, the stopper 1204 interferes with the projection on the case 100. Since the case 100 is made of an elastic material, the protrusion may be pressed by applying a certain external force to deform the case 100, so that the bracket 120 may rotate to a vertical state. Since the first supporting portion 1200 is subjected to a small lateral force in the upright state, it is difficult to press the protrusion against the elastic force of the case 100 to restore the stand 120, so that the protrusion may restrict the rotation of the stand 120 to some extent. When large-size objects need to be stored, the protruding position can be squeezed again by external force, so that the box body 100 is deformed again, and the first supporting portion 1200 returns to the original position, and meanwhile, the first shelf 102 can be attached to one side of the accommodating cavity and supported by the first supporting portion 1200 without overturning. It is understood that the position of the protrusion may be set at the position of the limiting hole 1008 in the above embodiments, or may be set at other positions, and the rotation of the first supporting portion 1200 is limited to limit the overall rotation of the bracket 120. That is, when the bracket 120 is used to support the first shelf 102 to carry an article, the protrusion may be disposed at a position on the box 100 abutting against the stopper 1204, or at a position on the box 100 abutting against the first support 1200.

It should be noted that the protrusion may be a structure fixedly disposed on the box 100, and the box 100 is made of an elastic material. In addition, the protrusion may be movably disposed on the box 100, for example, the protrusion may be a structure that can be inserted and pulled out, so that the bracket 120 rotates to pass through the position of the protrusion by pulling out the protrusion, and then the protrusion is inserted again to limit the rotation of the bracket 120. The protrusion may also be an elastic member including a ball and a spring, the box 100 is provided with a mounting groove, the ball and the spring are disposed in the mounting groove, and the spring is disposed between the ball and the bottom of the mounting groove. When the bracket 120 rotates, external force is applied to press the ball, so that the spring is compressed, and the ball is pressed into the mounting groove, thereby the bracket 120 passes through.

Example 11

As shown in fig. 6, an embodiment according to a second aspect of the present application provides a refrigeration apparatus 20 including: a refrigeration compartment 200, the refrigeration compartment 200 comprising a storage structure 10 as described above in any of the embodiments of the first aspect.

The refrigeration device 20 further includes a door body, and the cabinet 100 of the storage structure 10 is connected to the door body.

In this embodiment, by using the storage structure 10 of any one of the embodiments, all the beneficial effects of the embodiments are achieved, and are not described herein again. The refrigerating chamber 200 is provided to store food at a low temperature and prolong the fresh-keeping time of the food. The box 100 is connected with the door body, so that the opening of the box 100 can be sealed through the door body, articles can be prevented from falling out, and external impurities can be prevented from entering the box 100 to pollute the articles through the sealed box 100. The enclosure of body 100 also facilitates the enhancement of the thermal insulation properties of storage structure 10.

The refrigerating apparatus 20 includes any one of a refrigerator, an ice chest, and a freezer.

Example 12

According to the refrigerator provided by the embodiment of the present application, in order to solve the problem that the first shelf 102 is not easily detached, a bracket 120 (also referred to as a turning bracket rod) is added below the first shelf 102, the bracket 120 is fixed on the refrigerator body 100 through a turning connecting shaft hole 1206, and is inserted into a mounting hole on the refrigerator body 100 through a pin 140 for positioning, so as to prevent an object from turning over on the first shelf 102 due to the fact that the object is placed on the rear portion. When it is desired to place a large object, pin 140 is first pulled off, first shelf 102 is pulled inward, i.e., opposite the opening of cabinet 100, and first shelf 102 is flipped over. The rear of the first shelf 102 enters the gap 1006 between the second shelf 104 and the cabinet 100, and after being turned 90 degrees, the first shelf 102 is perpendicular to the second shelf 104 and positioned on the third shelf 106 or the bottom wall 1000 by the first support 1200 of the bracket 120, so as to achieve the purpose of folding up the first shelf 102, and at this time, the first shelf 102 is located at the second position. When the first shelf 102 is used, the first shelf 102 is turned 90 degrees forward, that is, toward the opening of the cabinet 100, and the stand 120 is turned over, so that the first support portion 1200 of the stand 120 is in an upright state after the first shelf 102 is placed in position in the horizontal direction, to support the first shelf 102. The pin shaft 140 is pulled out from the shaft hole 1206 and the mounting hole, aligned with the limiting groove 1208 and the limiting hole 1008, and then the pin shaft 140 is inserted into the limiting groove 1208 and the limiting hole 1008, so that the first shelf 102 is positioned, and at the moment, the first shelf 102 is located at the first position.

The specific embodiment integrates and improves the structure of the shelf of the traditional refrigerator. The refrigerator is convenient to use, and the use space of the refrigerator is rationalized to the maximum extent. The convenience of the shelf is improved.

The specific embodiment has the following beneficial effects:

1. the problems that the glass shelf is inconvenient to disassemble and is not easy to store after being disassembled are solved;

2. the storage space of the refrigerating chamber of the refrigerator is reasonably utilized, and large-size objects can be placed conveniently.

The embodiment provided by the application is described in detail in the figures, and the embodiment improves the use convenience of the shelf in the refrigeration equipment, so that the shelf can be assembled and disassembled and is convenient to store, and the storage space in the refrigeration equipment can be better utilized.

In embodiments according to the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. Specific meanings of the above terms in the embodiments according to the present application can be understood by those of ordinary skill in the art as the case may be.

In the description of the embodiments according to the present application, it should be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience of description and simplification of description of the embodiments according to the present application, and do not indicate or imply that the referred devices or units must have a specific direction, be configured and operated in a specific orientation, and thus, cannot be construed as limitations on the embodiments according to the present application.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example in accordance with the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above embodiments are merely preferred embodiments according to the present application, and are not intended to limit the embodiments according to the present application, and those skilled in the art may make various modifications and variations to the embodiments according to the present application. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the embodiments according to the present application shall be included in the protection scope of the embodiments according to the present application.

Claims (16)

1. A storage structure, comprising:

a case having an accommodating chamber;

the first shelf is arranged in the accommodating cavity and used for placing objects;

the support is rotatably arranged in the box body, and the first shelf can rotate to a first position or a second position along with the support.

2. Storage structure according to claim 1,

in the first position, the first shelf is used for placing objects, and the bracket is used for supporting the first shelf;

in the second position, the first shelf is attached to the side wall of the box.

3. Storage structure according to claim 1 or 2, characterized in that said support comprises:

the first supporting part is connected with the first shelf, and the first supporting part is used for supporting the first shelf at the first position.

4. The storage structure of claim 3, wherein the bracket further comprises:

and the second supporting part is arranged on the first supporting part, and at the second position, the second supporting part is used for supporting the first supporting part.

5. Storage structure according to claim 4,

the bracket is rotatably connected with the side wall of the box body.

6. Storage structure according to claim 5,

the bracket is provided with a shaft hole;

the box body is provided with a mounting hole;

the storage structure further includes: a pin shaft;

the support is in rotating connection with the box body through the matching of the pin shaft, the shaft hole and the mounting hole.

7. Storage structure according to claim 6,

the hinge pin is provided with a thread structure, the mounting hole is provided with a thread part, and the hinge pin is detachably connected with the box body through the matching of the thread structure and the thread part.

8. The storage structure of claim 7, wherein the bracket further comprises:

the limiting part is provided with the shaft hole and is also connected with the first supporting part;

the limiting part is also provided with a limiting structure;

the box body is provided with a limiting hole;

the pin shaft is also used for being connected in the limiting structure and the limiting hole in a penetrating mode and limiting the rotation of the support.

9. Storage structure according to claim 8,

one end of the limiting portion is connected with the first supporting portion, the other end of the limiting portion is provided with the shaft hole, and the limiting structure is arranged between the two ends of the limiting portion.

10. Storage structure according to claim 8,

the limiting structure is a limiting groove or a through hole.

11. Storage structure according to claim 8,

the limiting part and the second supporting part are located on the same side of the first supporting part.

12. Storage structure according to claim 8,

the box body is provided with a bottom wall, the limiting part is abutted against the bottom wall at the first position, and the second supporting part is abutted against the bottom wall at the second position; or

The storage structure further includes: the second shelf is arranged in the box body, the limiting part is abutted against the second shelf at the first position, and the second supporting part is abutted against the second shelf at the second position.

13. A storage structure according to claim 1 or 2, characterized in that it further comprises:

the second shelf is arranged in the box body;

the box body is provided with an opening, a gap is formed between the side wall of the box body opposite to the opening and the second shelf, and the gap is used for inserting the first shelf.

14. Storage structure according to claim 1 or 2,

the number of the brackets is multiple.

15. Storage structure according to claim 1 or 2,

the box body is provided with a bulge, and the bulge is used for limiting the rotation of the support.

16. A refrigeration apparatus, comprising:

a refrigerated compartment comprising the storage structure of any of claims 1 to 15.

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