Patent Publication Number: US-10772423-B2

Title: Storage container and refrigerator having the same

Description:
CROSS-REFERENCE TO RELATED APPLICATION(S) 
     This application claims the benefit of Korean Patent Application No. 10-2016-0143515, filed on Oct. 31, 2016 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference. 
     BACKGROUND 
     1. Field 
     Embodiments of the present disclosure relate to a refrigerator having a storage container provided with a partition portion capable of dividing an internal storage space into an appropriate size and securing the appropriate size space. 
     2. Description of Related Art 
     In general, a refrigerator is an apparatus keeping foods at a low temperature by supplying low-temperature cold air to a storage compartment where the food is stored. The refrigerator has a freezing compartment maintaining the temperature below a freezing temperature and a refrigerating compartment maintaining the temperature slightly higher than the freezing temperature. 
     The storage capacity of the refrigerator tends to be large due to the diversification of life, and a storage container may be provided in the large-sized refrigerator wherein the storage container is configured to be inserted into or pulled out to allow vegetables and fruits to be stored therein. 
     The storage container is provided with a storage space for storing food therein. In recent years, a storage container in which the storage space is divided has been developed so that different kinds of food are organized without mixing. 
     In the case of dividing the storage space as described above, when the size of the divided storage space is fixed or arbitrarily adjusted, there are difficulties in easily fixing the adjusted storage space. 
     SUMMARY 
     Therefore, it is an aspect of the present disclosure to provide a storage container capable of fixing a partition member dividing a storage space, based on a rotation of a part of a moving guide contained in a partition portion dividing the storage space. 
     Additional aspects of the present disclosure 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 the present disclosure. 
     In accordance with one aspect of the present disclosure, a storage container having a storage space includes a partition member configured to divide the storage space of the storage container, the partition member having a first partition member movable in a first direction in the storage space, and a second partition member movable in a second direction in the storage space so that the first partition member and the second partition member cross each other, a moving guide provided in an intersection between the first partition and the second partition and configured to guide a movement of the first partition member and a movement of the second partition member, the moving guide including an upper portion, and a lower portion to be coupled to the upper portion, the lower portion including a partition fixing portion movable when the upper portion is rotated with respect to the lower portion, the storage container may be configured to move a partition fixing portion disposed in the moving guide in a direction to contact the partition member according to the rotation of the upper portion of the moving guide. 
     The moving guide may include a first through hole through which the first partition is passed and a second through hole vertically spaced apart from the first through hole and through which the second partition is passed. 
     The lower portion of the moving guide may further include a middle portion coupled to the upper portion and a lower portion coupled to the middle portion, wherein the moving guide may form the first through hole and the second through hole by the coupling between the middle portion and the lower portion. 
     The partition fixing portion may further include a stopper, wherein the stopper may be in contact with the first partition and the second partition to fix the movement of the first partition and the second partition. 
     A surface of the stopper may be formed of a material having the high frictional force. 
     The stopper may be formed of a silicon or a rubber material. 
     The upper portion of the moving guide is provided with an inclined surface inside thereof, and the partition fixing portion comprises a follower in contact with the inclined surface, wherein when the upper portion is rotated, the partition fixing portion may be moved based on the difference in the height of the inclined surface. 
     When the partition fixing portion is furthest away from the upper portion according to a rotation of the upper portion, the stopper may come into contact with the first partition member and the second partition member. 
     The inclined surface of the upper portion may further include a locking protrusion, wherein when the locking protrusion comes into contact with the follower, which moves with the contact with the inclined surface, and then the contact between the locking protrusion and the follower is released according to a rotation of the upper portion, the vibration or the noise may be generated by the contact between the inclined surface and the follower. 
     When the upper portion is rotated in the first direction, the stopper comes into contact with the first partition member and the second partition member and when the upper portion is rotated in the second direction, the stopper may be away from the first partition member and the second partition member. 
     In accordance with another aspect of the present disclosure, a refrigerator includes a body having a storage compartment, a door configured to open or close the storage compartment, a storage container configured to be inserted into or pulled out from the storage compartment and having a storage space, a partition member configured to divide the storage space of the storage container, the partition member having a first partition member movable in a first direction in the storage space, and a second partition member movable in a second direction in the storage space so that the first partition member, and the second partition member cross each other, a moving guide provided in an intersection between the first partition member and the second partition member and configured to guide a movement of the first partition member and the second partition member, the moving guide including an upper portion, and a lower portion to be coupled to the upper portion, the lower portion including a partition fixing portion movable when the upper portion is rotated with respect to the lower portion, wherein when the upper portion of the moving guide is rotated, the partition fixing portion is moved to regulate at least one of the movement of the first partition member in the first direction and the movement of the second partition member in the second direction. 
     In accordance with still another aspect of the present disclosure, a moving guide to manipulate spacing of a storage of a refrigerator includes an upper portion having an inclined surface in the inside thereof, and a lower portion to be coupled to the upper portion, the lower portion including a partition fixing portion movable when the upper portion is rotated with respect to the lower portion and having a follower in contact with the inclined surface, wherein when the upper portion is rotated, the partition fixing portion having the follower is moved according to the movement of the inclined surface. 
     In accordance with still another aspect of the present disclosure, a storage container provided with a storage space includes a partition member configured to divide the storage space of the storage container by having a first partition member movable in a first direction in the storage space, and a second partition member movable in a second direction in the storage space while crossing the first partition member, and a moving guide provided in the intersection between the first partition member and the second partition member and configured to guide the movement of the first partition member and the second partition member and to fix the first partition member and the second partition member so as not to move, wherein the storage container may be configured to release contact with the first partition fixing portion and the second partition fixing portion by moving the first partition fixing portion and the second partition fixing portion disposed inside the moving guide in a second direction perpendicular to the first direction based on movement of the lever of the moving guide in a first direction. 
     The moving guide may be provided with a first through hole through which the first partition member is passed and a second through hole vertically spaced apart from the first through hole and through which the second partition member is passed. 
     The moving guide may further include an upper portion into which the lever is inserted, a middle portion and a lower portion coupled to the middle portion, wherein the moving guide may form the first through hole and the second through hole by the coupling between the middle portion and the lower portion. 
     The partition fixing portion may further include a stopper, wherein the stopper may be in contact with the first partition member and the second partition member to fix the movement of the first partition member and the second partition member. 
     A surface of the stopper may be formed of a material having the high frictional force. 
     The storage container may be configured to move the first partition fixing portion and the second partition fixing portion in a direction away from the partition member based on the movement of the lever in the direction towards the moving guide. 
     In accordance with still another aspect of the present disclosure, a storage container provided with a storage space includes a partition member configured to divide the storage space of the storage container by having a first partition member movable in a first direction in the storage space, and a second partition member movable in a second direction in the storage space while crossing the first partition member, and a moving guide provided in the intersection between the first partition member and the second partition member and configured to guide the movement of the first partition member and the second partition member and to fix the first partition member and the second partition member so as not to move, wherein the moving guide may be configured to release contact with the first partition fixing portion and the second partition fixing portion by moving the first partition fixing portion and the second partition fixing portion disposed inside the moving guide in a second direction perpendicular to the first direction based on movement of the lever of the moving guide in a first direction. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       These and/or other aspects of the disclosure will become apparent and more readily appreciated from the following description of embodiments, taken in conjunction with the accompanying drawings of which: 
         FIG. 1  is a perspective view schematically illustrating an appearance of a refrigerator in accordance with an embodiment of the present disclosure. 
         FIG. 2  is a perspective view illustrating an inside of a refrigerating compartment of the refrigerator in accordance with an embodiment of the present disclosure. 
         FIG. 3  is a perspective view illustrating a state in which a storage container is pulled out from a refrigerator in accordance with various embodiments. 
         FIG. 4  is a perspective view illustrating the storage container of the refrigerator in accordance with various embodiments. 
         FIG. 5  is an exploded-perspective view illustrating a moving guide in accordance with various embodiments. 
         FIG. 6  is a perspective view illustrating an upper portion of the moving guide in accordance with various embodiments. 
         FIG. 7  is a perspective view illustrating a middle portion of the moving guide in accordance with various embodiments. 
         FIG. 8  is a perspective view illustrating a lower portion of the moving guide in accordance with various embodiments. 
         FIG. 9  is a perspective view illustrating a partition fixing portion provided inside the moving guide. 
         FIG. 10  is a cross-sectional view illustrating a case in which the moving guide does not fix the partition member according to various embodiments. 
         FIG. 11  is a perspective view illustrating a state in which the stopper is not in contact with the partition member in the moving guide according to various embodiments. 
         FIG. 12  is a cross-sectional view illustrating a state in which the moving guide rotates to fix the partition member according to various embodiments. 
         FIG. 13  is a cross-sectional view illustrating a state in which the moving member fixes the partition member according to various embodiments. 
         FIG. 14  is a perspective view illustrating a state in which the stopper is in contact with the partition member in the moving guide according to various embodiments. 
         FIG. 15  is a perspective view illustrating an upper portion configured to inform a user when rotating in the first direction and the second direction in the moving guide according to various embodiments. 
         FIGS. 16 and 17  are perspective views illustrating the guide slot and the partition member in the storage container according to various embodiments. 
         FIG. 18  is a perspective view illustrating another structure to move the partition member in the storage container according to various embodiments. 
         FIG. 19  is an exploded-perspective view illustrating a moving guide according to another embodiment of the present disclosure. 
         FIG. 20  is a perspective view illustrating an upper portion of the moving guide according to various embodiments. 
         FIG. 21  is a perspective view illustrating a middle portion of the moving guide according to various embodiments. 
         FIG. 22  is a perspective view illustrating a lower portion of the moving guide according to various embodiments. 
         FIGS. 23A and 23B  are a perspective view illustrating a partition fixing portion provided in the inside of the moving guide. 
         FIGS. 24A and 24B  are a perspective view illustrating a lever according to various embodiments. 
         FIGS. 25A and 25B  are cross-sectional views illustrating a process in which the partition member is changed from a fixed state to a non-fixed state in the moving guide according to various embodiments. 
     
    
    
     DETAILED DESCRIPTION 
     Embodiments described in the present disclosure and configurations shown in the drawings are merely examples of the embodiments of the present disclosure, and may be modified in various different ways at the time of filing of the present application to replace the embodiments and drawings of the present disclosure. 
     In addition, the same reference numerals or signs shown in the drawings of the present disclosure indicate elements or components performing substantially the same function. 
     Also, the terms used herein are used to describe the embodiments and are not intended to limit and/or restrict the present disclosure. The singular forms “a,” “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. In this present disclosure, the terms “including”, “having”, and the like are used to specify features, numbers, steps, operations, elements, components, or combinations thereof, but do not preclude the presence or addition of one or more of the features, elements, steps, operations, elements, components, or combinations thereof. 
     It will be understood that, although the terms first, second, third, etc., may be used herein to describe various elements, but elements are not limited by these terms. These terms are only used to distinguish one element from another element. For example, without departing from the scope of the present disclosure, a first element may be termed as a second element, and a second element may be termed as a first element. The term of “and/or” includes a plurality of combinations of relevant items or any one item among a plurality of relevant items. 
     In the following detailed description, the terms of “front end”, “rear end”, “upper portion”, “lower portion”, “upper end”, “lower end” and the like may be defined by the drawings, but the shape and the location of the component is not limited by the term. 
     The present disclosure will be described more fully hereinafter with reference to the accompanying drawings. 
       FIG. 1  is a perspective view schematically illustrating an appearance of a refrigerator in accordance with an embodiment of the present disclosure, and  FIG. 2  is a perspective view illustrating an inside of a refrigerating compartment of the refrigerator in accordance with an embodiment of the present disclosure. 
     Referring to  FIGS. 1 and 2 , a refrigerator according to various embodiments may include a body  10  in which a storage compartment  11  and  12  is formed and a door  13  and  14  closing and opening the front surface of the body  10 . 
     The storage compartment  11  and  12  may be provided with an upper refrigerating compartment  11  and a lower freezing compartment  12 , which are divided by a horizontal partition  15  configured to divide the body  10  into the upper portion and the lower portion. The door  13  and  14  may include a refrigerating compartment door  13  opening and closing the refrigerating compartment  11  and a freezing compartment door  14  opening and closing the freezing compartment  12 . 
     A plurality of door guards  16  storing beverages and small-volume foods may be provided inside the refrigerating compartment door  13 . The refrigerator compartment door  13  may be provided with a dispenser  17  allowing a user to take out water or ice in the outside. 
     A plurality of shelves  18  on which foods are placed may be provided in the upper portion of the refrigerating compartment  11  and a plurality of storage containers  20  having storage space for storing vegetables and fruits may be provided in the lower portion of refrigerator compartment  11 . 
     According to various embodiments, the storage container  20  is provided to be inserted into or pulled out from the storage compartment  11  and  12 , but is not limited thereto. For example, the storage container  20  may be formed with a drawer-type storage container  20  whose front surface is made of a door and configured to be pulled out from the refrigerator. 
       FIG. 3  is a perspective view illustrating a state in which a storage container is pulled out from a refrigerator in accordance with various embodiments.  FIG. 4  is a perspective view illustrating the storage container of the refrigerator in accordance with various embodiments. 
     Referring to  FIGS. 3 and 4 , the storage container  20  may be formed in a hexahedron shape having an opened upper surface, wherein the storage container  20  is provided with a bottom surface  23  and a vertical wall  25  extended from an edge portion of the bottom surface  23  toward an upper side (+Z axis) to form a storage space  21  in which the foods are stored, 
     The vertical wall  25  may be formed with both side walls and  25   b , which are connected to the upper side (+Z axis) from both side edges of the bottom surface  23  and parallel with the X axis, and a front wall  25   c  and a rear wall  25   d  connected to the upper side from an edge portion of the front and rear side of the bottom surface  23  and parallel with the Y axis. 
     According to various embodiments, the vertical wall  25  may be provided with a guide slot  26  cut elongated in the left and right direction. The guide slot  26  may form a path to which a partition member  50 , which will be described later, is inserted and moved. 
     In the storage space  21 , a partition portion  40  partitioning the storage space  21  into a plurality of areas may be provided. The partition portion  40  may include the partition member  50  dividing the storage space  21  into the front and rear area or right and left area so as to partition the storage space  21  into two or more independent spaces. 
     According to various embodiments, the partition member  50  may include a first partition member  50   a  partitioning the storage space  21  in the front-rear direction and a second partition member  50   a  partitioning the storage space  21  in the left-right direction by crossing the first partition member  50   a.    
     The partition member  50  may be formed in a closed rectangular line having a pair of long sides and a pair of short sides, particularly the partition member  50  is provided with a pair of horizontal rods  51  and  53  which are vertically spaced apart from each other to face to each other, and a pair of vertical rods  52  and  54  connecting each end portion of the horizontal rods  51  and  53 . The horizontal rods  51  and  53  and the vertical rods  52  and  54  may be formed by bending a wire or a pipe having a sufficient rigidity, but is not limited thereto. 
     The length of the horizontal rod  51  of the first partition member  50   a  may be set to be slightly smaller than the distance between the opposite side walls  25   a  and  25   b  of the storage container  20 . The length of the horizontal rod  53  of the second partition member  50   a  may be provided to be slightly smaller than the distance between the front wall  25   c  and the rear wall  25   d  of the storage container  20 . 
     The vertical rods  52  and  54  may be formed to have a length similar to the height of the storage space  21 . A coupling protrusion  55  fitted in the guide slot  26  may be provided in at least one of the vertical rods  52  and  54 , respectively. 
     A moving guide  100  guiding the first partition member  50   a  in the front and rear direction (the X axis direction) and guiding the second partition member  50   b  in the left and right direction (the Y axis direction) may be provided in a position in which the first partition member  50   a  and the second partition member  50   b  are across. 
     According to various embodiments, the moving guide  100  may be positioned at the intersection of the first partition member  50   a  and the second partition member  50   a  to guide the movement of the first partition member  50   a  and the second partition member  50   a , while fixing or securing the first partition member  50   a  and the second partition member  50   a  so as not to move. 
     The first partition member  50   a  and the second partition member  50   a  may be moved simultaneously or sequentially when a force is applied in a direction to move at the intersection. Therefore, a user can move the first partition member  50   a  and the second partition member  50   a  by holding and moving the moving guide  100  provided at the intersection of the first partition member  50   a  and the second partition member  50   a.    
     According to various embodiments, while allowing the first partition member  50   a  and the second partition member  50   a  to move easily, the moving guide  100  may partition the storage space  21  into a space with the appropriate size for the volume of the food to be stored and then fix the first partition member  50   a  and the second partition member  50   a . When fixing the first partition member  50   a  and the second partition member  50   a  to a predetermined position by using the moving guide  100 , the first partition member  50   a  and the second partition member  50   a  may be prevented from moving in the front and rear direction and the left and right direction. 
       FIG. 5  is an exploded-perspective view illustrating a moving guide  100  in accordance with various embodiments.  FIG. 6  is a perspective view illustrating an upper portion of the moving guide  100  in accordance with various embodiments.  FIG. 7  is a perspective view illustrating a middle portion of the moving guide  100  in accordance with various embodiments.  FIG. 8  is a perspective view illustrating a lower portion of the moving guide  100  in accordance with various embodiments.  FIG. 9  is a perspective view illustrating a partition fixing portion  140  provided inside the moving guide  100 . Hereinafter a configuration of the moving guide  100  will be described with reference to  FIGS. 5 to 9 . 
     Referring to  FIG. 5 , according to various embodiments the moving guide  100  may include an upper portion  110  rotated in a first and a second direction, a middle portion  120  coupled to the upper portion  110  to guide the rotation by being adjacent to the upper portion  110 , a lower portion  130  forming a through hole in which the first partition member  50   a  and the second partition member  50   b  are passed through by being coupled to the lower portion  130 , and an anti-slip portion  170  surrounding at least one portion of an outer surface of the upper portion  110 . 
     The moving guide  100  may further include the partition fixing portion  140 , which is provided inside of the upper portion  110 , the middle portion  120  and the lower portion  130 , and a stopper  150  coupled to the partition fixing portion  140 . The partition fixing portion  140  to which the upper portion  110 , the middle portion  120 , the lower portion  130  and the stopper  150  are coupled may be coupled along the Z axis. The upper portion  110  may rotate in the first direction and the second direction in a state in which the respective components of the moving guide  100  are coupled to each other, and the partition fixing portion may be rotated in the vertical direction along the Z axis direction, according to the rotation of the upper portion  110 . 
     The anti-slip portion  170  may be a portion preventing the slip when the user grasps the upper portion  110  and rotates the upper portion  110  in the first direction or the second direction or moves the upper portion  110  in the vertical direction. Therefore, the anti-slip portion  170  may be formed of a material having the high contact force, such as silicon or rubber material, but is not limited thereto. 
       FIG. 6  is a perspective view of the upper portion  110  rotatable in the first direction and second direction in the moving guide  100  in accordance with various embodiments. 
     Referring to  FIG. 6 , the upper portion  110  of the moving guide  100  may include a central axis  115  fastened to the partition fixing portion  140  at a central portion thereof. The central axis  115  may be inserted into a circular groove  141  provided in the upper portion of the partition fixing portion  140 . The upper portion  110  of the moving guide  100  may be rotated in the first and second direction with respect to the Z axis while the central axis  115  at the upper portion  110  of the moving guide  100  is inserted into the circular groove  141  of the partition fixing portion  140 . In this case, the first direction and the second direction may be clockwise or counterclockwise, but is not limited thereto. When the upper portion  110  of the moving guide  100  rotates, the partition fixing portion  140  may vertically move along the Z-axis direction. 
     According to various embodiments, the upper portion  110  may form an inclined surface  111  inside of an upper surface  117 . The height of the inclined surface may increase along the direction of rotation of the upper portion  110 . For example, the inclined surface  111  may be shaped such that the height of the inclined surface  111  increases gradually while drawing a circle toward the Y axis with respect to the X axis. At least one inclined surface  111  may be provided. The upper portion  110  may include a plurality of third protrusions  113  forming along a side surface  119  in a direction perpendicular to the Z axis. When the upper portion  110  is engaged with the middle portion  120 , the third protrusion  113  may be disposed between a first protrusion  122  formed between a first coupling portion  124  formed in the middle portion  120  of the moving guide  100 , and an upper surface  121  of the middle portion  120 , and the upper surface  121  of the middle portion  120 . In this case, although the upper portion  110  rotates, the upper portion  110  may be prevented from separating from the middle portion  120  by the third protrusion  113  and the first protrusion  122 . 
       FIG. 7  is a perspective view of the middle portion  120  of the moving guide  100  in accordance with various embodiments. 
     Referring to  FIG. 7 , according to various embodiments the middle portion  120  of the moving guide  100  may include the first coupling portion  124  formed in the upper side thereof to be fastened to the upper portion  110  of the moving guide  100 , and the first protrusion  122  formed in the direction perpendicular to the Z axis along the outer surface of the first coupling portion  124 . 
     The middle portion  120  of the moving guide  100  may also be provided with semicircular spaces  125  and  127  through which the first partition member  50   a  and the second partition member  50   a  are passed, in the side surface  123 . The semicircular spaces  125  and  127  may form a through hole through which the first partition member  50   a  and the second partition member  50   b  are passed, by being in contact with semicircular spaces  135  and  137 , which will be described later, provided on the side surface  131  of the lower portion  130  of the moving guide  100 . According to various embodiments, a through hole in which the first partition member  50   a  is located may be a first through hole, and a through hole in which the second partition member  50   a  is located may be a second through hole, but is not limited thereto. 
     On the side surface  123  of the middle portion  120  of the moving guide  100 , a groove  129 , which is fastened to a second protrusion  133  formed on the side surface  131  of the lower portion  130  of the moving guide  100 , may be formed. By the coupling between the groove  129  and the second protrusion  133 , the middle portion  120  and the lower portion  130  of the moving guide  100  may be coupled to each other. 
       FIG. 8  is a perspective view of the lower portion  130  of the moving guide  100  in accordance with various embodiments. 
     Referring to  FIG. 8 , according to various embodiments the lower portion  130  of the moving guide  100  may include a second coupling portion  132  formed on the side surface  131  to be fastened to the middle portion  120  of the moving guide  100 , and the second protrusion  133  formed in the direction perpendicular to the Z axis along the outer surface of the second coupling portion  132 . 
     The lower portion  130  of the moving guide  100  may be provided with the semicircular spaces  135  and  137  through which the first partition member  50   a  and the second partition member  50   a  are passed, in the side surface  131 . The semicircular spaces  135  and  137  may form a through hole through which the first partition member  50   a  and the second partition member  50   b  are passed, by being in contact with semicircular spaces  125  and  127  provided on the side surface  123  of the middle portion  120  of the moving guide  100 . 
     For example, when the semicircular space  125  provided in the side surface  123  of the middle portion  120  is combined with the semicircular space  135  provided in the side surface  131  of the lower portion  130 , the first through hole may be formed. When the semicircular space  127  provided in the side surface  123  of the middle portion  120  is combined with the semicircular space  137  provided in the side surface  131  of the lower portion  130 , the second through hole may be formed. 
     According to various embodiments, the first partition member  50   a  may be inserted into the first through-hole, and the second partition member  50   a  may be inserted into the second through hole, but is not limited thereto. 
       FIG. 9  is a perspective view illustrating the partition fixing portion  140  located in the moving guide  100  according to various embodiments. 
     Referring to  FIG. 9 , according to various embodiments, the partition fixing portion  140  may include a circular groove  141  to which the central axis  115  of the upper portion  110  of the moving guide  100  is inserted, a follower  142  in contact with the inclined surface  111  of the upper portion  110 , a stopper locking groove  145  to which the stopper  150  is coupled, and a position fixing member  143  fixing the position of the partition fixing portion  140  to the direction of the upper portion  110  of the upper portion  110  in a state in which the moving guide  100  does not fix the partition member  50 . 
     The central axis  115  of the upper portion  110  may be inserted into the empty space of the circular groove  141  of the partition fixing portion  140 . The partition fixing portion  140  may be vertically moved in the Z axis direction in a state in which the central axis  115  at the upper portion  110  of the moving guide  100  is inserted into the circular groove  141  of the partition fixing portion  140 . In this case, the upper portion  110  of the moving guide  100  may be rotated in the first direction or the second direction with respect to the Z axis. 
     According to various embodiments, the follower  142  may be in contact with the inclined surface  111  of the upper portion  110 . Therefore, when the upper portion  110  rotates, the partition fixing portion  140  may vertically move in the Z axis according to the height of the inclined surface  111 . For example, when the upper portion  110  rotates in the first direction, the height of the inclined surface  111  may increase, so that the partition fixing portion  140  may move downward along the Z axis. When the upper portion  110  rotates in the second direction, the height of the inclined surface  111  may decrease, so that the partition fixing portion  140  may move upward along the Z axis. 
     When the partition fixing portion  140  moves in the vertical direction, the partition fixing portion  140  may move along the central axis  115  of the upper portion  110  inserted into the circular groove  141  of the partition fixing portion  140 . Therefore, the partition fixing portion  140  may move in the vertical direction while reducing the shaking in the left and right direction. 
     According to various embodiments, the stopper  150  may be coupled to the stopper locking groove  145  of the partition fixing portion  140 . A contact surface of the stopper  150  may be made of a material having the high frictional force, e.g., a silicone material or a rubber material, but is not limited thereto. The shape of the surface in which the stopper  150  is in contact with the partition member  50  may be similar to the appearance of the partition member  50 . For example, when the partition member  50  is in the shape of a cylinder, the surface in which the stopper  150  is in contact with the partition member  50  may also be rounded according to the appearance of the cylinder. 
     The stopper  150  may be not in contact or be in contact the partition member  50  based on the vertical movement of the partition fixing unit  140 . For example, when the partition fixing portion  140  descends along the Z-axis, the stopper  150  may be in contact with the partition member  50 . Therefore, the moving guide  100  may be fixed in position together with the partition member  50 . 
     When the partition fixing portion  140  ascends along the Z axis, the contact between the stopper  150  and the partition member  50  may be released. Therefore, the position of the moving guide  100  may be changed. As a result, the size of all the storage spaces generated by the partition member  50  may vary. 
     According to various embodiments, the position fixing member  143  may further include an elastic member  160 . The elastic member  160  may be in the form of a spring that surrounds the position fixing member  143 . The spring  160  may provide an elastic force on both sides along the Z-axis direction. Therefore, the spring  160  may always provide an elastic force to push the partition fixing portion  140  toward the upper portion  110  of the moving guide  100 . 
     Accordingly, the follower  142  of the partition fixing portion  140  may easily maintain a state of being in contact with the inclined surface  111  of the upper portion  110 . When the upper portion  110  rotates in the first direction or the second direction, the partition fixing portion  140  may be moved in the vertical direction along the Z-axis since the state in which the follower  142  is in contact with the inclined surface  111  of the upper portion  110  is maintained. According to various embodiments, the position fixing member  143  may implement the same effect as the above-described effect by using ribs. 
       FIG. 10  is a cross-sectional view illustrating a case in which the moving guide  100  does not fix the partition member according to various embodiments. 
     Referring to  FIG. 10 , the components forming the moving guide  100  may be fastened. The central axis  115  of the upper portion  110  of the moving guide  100  may be inserted into the circular groove  141  of the partition fixing member  140 . The partition fixing member  140  may be moved in the vertical direction along the Z-axis while the central axis  115  of the upper portion  110  is inserted thereto. 
     The upper portion  110  and the middle portion  120  of the moving guide  100  may be coupled to each other by using the third protrusion  113  provided in the side surface  119  of the upper portion  110  and the first coupling portion  124  provided in the upper portion of the middle portion  120 . While the upper portion  110  is coupled to the middle portion  120  and the partition fixing portion  140 , the upper portion  110  may be moved in the first direction or the second direction with respect to the Z-axis. 
     The middle portion  120  and the lower portion  130  of the moving guide  100  may be coupled to each other by using the groove  129  provided in the side surface  123  of the middle portion  120  and the second protrusion  133  provided in the side surface  131  of the lower portion  130 . When the middle portion  120  is coupled to the lower portion  130  of the moving guide  100 , at least two through holes in which the partition member  50  is placed may be formed. By using the through hole, the partition member  50  may be inserted into the moving guide  100 . 
     The partition fixing member  140  of the moving guide  100  may be disposed in an inner space formed by fastening the upper portion  110 , the middle portion  120 , and the lower portion  130  of the moving guide  100 . The elastic force of the elastic member  160  inserted into at least a part of the position fixing member  143  may push the partition fixing member  140  toward the upper portion  110  of the moving guide  100 . Accordingly, the follower  142  of the partition fixing member  140  may be in contact with the inclined surface  111  located at the upper portion  110  of the moving guide  100 . 
     Referring to  FIG. 10 , the follower  142  may be in contact with the highest point of the inclined surface  111 . When the follower  142  comes into contact with the highest point of the inclined surface  111 , the partition fixing member  140  may be placed at the uppermost position among the positions that can move along the Z axis. As the partition fixing member  140  is located at the uppermost position, the stopper  150  fastened to the partition fixing member  140  may be not in contact with the partition member  50 . 
       FIG. 11  is a perspective view illustrating a state in which the stopper is not in contact with the partition member in the moving guide  100  according to various embodiments. 
     Referring to  FIG. 11 , when the partition fixing member  140  is placed at the uppermost position as illustrated in  FIG. 10 , the stopper  150  fastened to the partition fixing member  140  may be not in contact with the first partition member  50   a  and/ or the second partition member  50   b.    
     In this state, a user can freely adjust the sizes of the spaces generated by the first partition member  50   a  and the second partition member  50   a  in the storage space  21  by moving the moving guide  100 . Accordingly, the user can make an appropriate size space in consideration of the size of various products to be stored in the storage space  21 . 
       FIG. 12  is a cross-sectional view illustrating a state in which the moving guide  100  rotates to fix the partition member according to various embodiments. 
     The user can divide the storage space  21  into desired size spaces while moving the moving guide  100 . When the desired spaces are formed, the user may fix the space to be unchanged by fixing the moving guide  100 . 
     Referring to  FIG. 12 , as the upper portion  110  of the moving guide  100  rotates, the follower  142  may be away from the highest point of the inclined surface  111  and then gradually come in contact with points having a lower height. As the point in which the follower  142  is in contact with the inclined surface  111  is changed, the partition fixing portion  140  may gradually move downward in the Z axis direction. 
     As the partition fixing portion  140  gradually moves downward, the stopper  150  fastened to the partition fixing member  140  and the partition member  50  may gradually become closer. However, the moving guide  100  may be moved since the stopper  150  and the partition member  50  do not in contact with each other. 
       FIG. 13  is a cross-sectional view illustrating a state in which the moving member  100  fixes the partition member according to various embodiments. 
     Referring to  FIG. 13 , when the rotation of the upper portion  110  of the moving guide  100  is completed, the follower  142  may be in contact with the lowest point of the inclined surface  111 , but is not limited thereto. For example, the follower  142  may be escaped from the inclined surface  111  and then in contact with the inner surface of the upper surface  117  of the upper portion  110  which is perpendicular to the Z-axis without the inclination. 
     When the follower  142  comes into contact with the lowest point of the inclined surface  111 , the partition fixing member  140  may be placed at the lowest position among the positions in which the partition fixing portion  140  is movable along the Z axis. As the partition fixing member  140  is placed at the lowest position, the stopper  150  fastened to the partition fixing member  140  may be in contact with the partition member  50 . In this case, the position fixing member  143  may be the closest to a lower inner side surface  139  of the partition fixing portion  140  of the moving guide  100 , or may be in contact with the lower inner side surface  139 . 
       FIG. 14  is a perspective view illustrating a state in which the stopper is in contact with the partition member in the moving guide  100  according to various embodiments. 
     Referring to  FIG. 14 , when the partition fixing member  140  is positioned at the lowest position as illustrated in  FIG. 13 , the stopper  150  fastened to the partition fixing member  140  may be in contact with the first partition member  50   a  and/or the second partition member  50   b.    
     In this state, a user cannot freely adjust the size of the spaces generated by the first partition member  50   a  and the second partition member  50   a  in the storage space  21  by moving the moving guide  100 , any more. Therefore, the user can store various products using the storage space  21  divided into a desired size. 
       FIG. 15  is a perspective view illustrating an upper portion  110 ′ configured to inform a user when rotating in the first direction and the second direction in the moving guide  100  according to various embodiments. 
     Referring to  FIG. 15 , an upper portion  110 ′ of the moving guide  100  may include a central axis  115  fastened to the partition fixing portion  140  at a central portion thereof. The upper portion  110 ′ may be one of various embodiments of the upper portion  110  of  FIG. 6 . The center axis  150  may be inserted into a circular groove  141  provided in the upper portion of the partition fixing portion  140 . The upper portion  110 ′ of the moving guide  100  may be rotated in the first and second direction with respect to the Z axis while the center axis  150  at the upper portion  110 ′ of the moving guide  100  is inserted into the circular groove  141  of the partition fixing portion  140 . 
     According to various embodiments, the upper portion  110 ′ may form an inclined surface  111  inside of an upper surface  117 . The height of the inclined surface may increase along the direction of rotation of the upper portion  110 ′. For example, the inclined surface  111  may be shaped such that the height of the inclined surface  111  increases gradually while drawing a circle toward the Y axis with respect to the X axis. At least one inclined surface  111  may be provided. 
     According to various embodiments, on the inclined surface  111 , a locking protrusion  1510  may be formed toward the side surface  119  of the upper portion  110 ′ in the central axis  115 . For example, the locking protrusion  1510  may be provided adjacent to the lowest point of the inclined surface  111 . Therefore, as the upper portion  110 ′ of the moving guide  100  rotates, the follower  142  may move with the contact with the inclined surface  111 , and then come into contact with the locking protrusion  1510  during the movement. 
     According to various embodiments, when the follower  142  is comes into contact with the locking protrusion  1510  and then separated from the locking protrusion  1510  as the upper portion  110 ′ of the moving guide  100  continues to rotate, the partition fixing portion  140  may quickly move to the inclined surface  111  by the elastic force of the spring  160  inserted into the position fixing member  143 . In this time, the follower  142  and the inclined surface  111  of the upper portion  110 ′ may be collided with each other and thus the vibration and the noise may be generated. 
     According to various embodiments, the locking protrusion  1510  is adjacent to the lowest point of the inclined surface  111 , the rotation of the partition fixing portion  140  may be completed right after the contact between the partition fixing portion  140  and the locking protrusion  1510  is released. 
     Therefore, when the collision sound is generated by the above mentioned operation during a user rotates the upper portion  110 ′ of the moving guide  100  and then fix the moving guide  100 , the user may recognize that the fixation of the moving guide  100  is completed. 
       FIGS. 16 and 17  are perspective views illustrating the guide slot  26  and the partition member  50  in the storage container according to various embodiments. 
       FIG. 16  illustrates a roller  1610  provided in a cross-section of the guide slot  26  and the partition member  50 . 
     The guide slot  26  is a concaved groove elongated formed in the horizontal direction on the wall surface of the storage container  20 . The end portion of the first partition member  50   a  and the second partition member  50   b  may be coupled to the guide slot  26 . 
     The roller  1610  may be provided in the end portion of the first partition member  50   a  and the second partition member  50   b  so as to move the first partition member  50   a  and the second partition member  50   b  in the horizontal direction by rotating along the guide slot  26 . It may be appropriate that an inlet  1620  of the guide slot  26  is smaller than the roller  1610  so that the roller  1610  coupled to the guide slot  26  is prevented from escaping. 
     Referring to  FIG. 17 , an uneven portion  1710  may be formed on a surface in contact with an outer circumferential surface of the roller  1610  of the guide slot  26 . When the size of the uneven portion  1710  is similar to the size of the roller  1610 , the roller  1610  may be placed in the concave portion of the uneven portion  1710  and thus the roller  1610  may be gradually moved by an interval of the uneven portion  1710  without being continuously moved. When the size of the uneven portion  1710  is small, a tooth  1612  may be formed on an outer circumferential surface of the roller  1610 . As the tooth  1612  is engaged with the uneven portion  1710  and then rotated, the roller  1610  may be moved. 
     When the uneven portion  1710  is formed in the guide slot  26 , it is possible to improve the efficiency of the fixation of the partition member  50  because the movement of the roller  1610 , which is not intended by a user, is prevented. 
       FIG. 18  is a perspective view illustrating another structure to move the partition member  50  in the storage container according to various embodiments. 
     Referring to  FIG. 18 , the storage container  20  may include a sliding member  1810  provided in a wall surface thereof, and a guide member  1820  to which the sliding member  1810  is movably coupled to guide the stable linear movement of the sliding member  1810 . According to various embodiments, the guide member  1820  may be formed of a material having the relatively large rigidity as to prevent the shaking caused by the deformation upon movement of the sliding member  1810 . 
     According to various embodiments, the sliding member  1810  may be formed in a substantial rectangular plate shape. The sliding member  1810  may be coupled to each vertical rod  52  and  54  of the first partition member  50   a  and the second partition member  50   b . For this, a coupling portion  1830  coupled to each vertical rod  52  and  54  of the first partition member  50   a  and the second partition member  50   b  may be provided in one side of the sliding member  1810 . 
     The coupling portion  1830  may have any shape as long as a structure capable of detachably mounting the sliding member  1810  to the partition member  50  so that the sliding member  1810  is attachable to or detachable from the partition member  50 . For example, the coupling portion  1830  may include an indentation groove  1831  opened in the vertical direction so that the each vertical rod  52  and  54  of the first partition member  50   a  and the second partition member  50   b  is press-coupled thereto. 
     Accordingly, the each vertical rod  52  and  54  of the first partition member  50   a  and the second partition member  50   b  may be pressed in the indentation groove  1831  of the sliding member  1810  so that the first partition member  50   a  and the second partition member  50   b  are easily coupled to the sliding member  1810 . 
     When the vertical rod  52  and  54  is press-coupled to the indentation groove  1831  opened in the vertical direction, a position in which the press-coupling is performed may vary among positions in the longitudinal direction of the vertical rod  52  and  54 . Therefore, the height of the partition member  50  may be adjusted according to the storage space  21  of the storage container  20 . 
     According to various embodiments, the guide member  1820  may include a guide groove  1821  elongated with a predetermined depth in the direction perpendicular to the Z axis, wherein the guide groove  1821  is configured to guide the prior movement of the sliding member  1810 . 
     The guide groove  1821  may be provided to allow the sliding member  1810  to be inserted thereto so that the sliding member  1810  is movable along the guide groove  1821 . In this case, a roller  1811  rotatably coupled to the other side of the sliding member  1810  may be provided and thus the roller  1811  is in contact with the upper and lower surface of the inside of the guide groove  1821  while rolling. 
     According to various embodiments, the sliding member  1810  is configured to be detachably mounted to the partition member  50  so that the sliding member  1810  is attachable to or detachable from the partition member  50 , but is not limited thereto. The sliding member  1810  may be integrally formed with the partition member  50 . 
     According to various embodiments, the storage container  20  may be provided with the guide member  1820  and the sliding member  1810  on the wall surface thereof, as illustrated in  FIG. 18 , but the guide member  1820  and the sliding member  1810  may be placed inside of the guide slot  26 . In this case, the coupling portion  1830  may be placed outside of the guide slot  26  and then coupled to the partition member  50 . 
       FIG. 19  is an exploded-perspective view illustrating a moving guide  1000  according to another embodiment of the present disclosure.  FIG. 20  is a perspective view illustrating an upper portion of the moving guide  1000  according to various embodiments.  FIG. 21  is a perspective view illustrating a middle portion of the moving guide  1000  according to various embodiments.  FIG. 22  is a perspective view illustrating a lower portion of the moving guide  1000  according to various embodiments.  FIG. 23  is a perspective view illustrating a partition fixing portion provided on the inside of the moving guide  1000 .  FIG. 24  is a perspective view illustrating a lever according to various embodiments. Hereinafter a configuration of the moving guide  1000  will be described with reference to  FIGS. 19 to 24 . 
     Referring to  FIG. 19 , according to various embodiments, the moving guide  1000  may include an upper portion  1910 , a middle portion  1920  and a lower portion  1930  forming a through hole by being coupled to the middle portion  1920 , wherein a first partition and a second partition are passed the through hole. 
     The moving guide  1000  may further include a first partition fixing portion  1940 , a second partition fixing portion  1950 , a first lever  1960 , a second lever  1970 , a first stopper  1941  and the second stopper  1951  coupled the first partition fixing portion  1940  and the second partition fixing portion  1950 , all of which are placed inside of the upper portion  1910 , the middle portion  1920  and the lower portion  1930 . 
     In the moving guide  1000 , the upper portion  1910 , the middle portion  1920 , the lower portion  1930  and the first and second partition fixing portion  1940  and  1950  to which the first and second stopper  1941  and the second stopper  1951  is coupled may be coupled to each other in the Z axis. In a state in which each component of the moving guide  1000  is coupled to each other, the first lever  1960  and the second lever  1970  may be movable in the XY plane, and the first and second partition fixing portion  1940  and  1950  may be vertically movable in the Z axis direction, according to the movement of the first lever  1960  and the second lever  1970 . 
       FIG. 20  is a perspective view illustrating the upper portion  1910  of the moving guide  1000  according to various embodiments. 
     Referring to  FIG. 20 , the upper portion  1910  of the moving guide  1000  may include a hook protrusion  1911  formed in an edge portion of the inner surface thereof to be engaged with the middle portion  1920 . The hook protrusion  1911  may be inserted into a hook groove  1921  provided in a side surface of an upper portion of the middle portion  1920 . The upper portion  1910  and the middle portion  1920  may be coupled to each other by the hook protrusion  1911  and the hook groove  1921 . 
     According to various embodiments, an uneven portion  1912  may be formed in the inner side of the upper portion  1910 . The uneven portion  1912  may be engaged with an upper portion coupling groove  1946  formed in the upper portion of the first partition fixing portion  1940  to fix a position of a spring  1942  in a state in which the spring  1942  inserted into the first partition fixing portion  1940  comes into contact with the upper portion  1910 . 
     The upper portion  1910  may be provided with a lever insertion protrusion  1913  formed in the other edge portion different from the edge portion in which the hook protrusion  1911  is formed, and configured to be coupled to the lever  1960  and  1970 . 
       FIG. 21  is a perspective view illustrating the middle portion  1920  of the moving guide  1000  according to various embodiments. 
     Referring to  FIG. 21 , according to various embodiments, the middle portion  1920  of the moving guide  1000  may include the hook groove  1921  formed in the upper portion thereof and configured to be coupled to the upper portion  1910  of the moving guide  1000 , a coupling groove  1922  coupled to the lower portion  1930  of the moving guide  1000 , and semicircular spaces  1923  through which the first partition member  50   a  and the second partition member  50   a  are passed when the middle portion  1920  is coupled to the lower portion of the moving guide  1000 . 
     The semicircular spaces  1923  may form a through hole through which the first partition member  50   a  and the second partition member  50   b  are passed, by being in contact with semicircular spaces  1932  provided on the side surface of the lower portion  1930  of the moving guide  1000 . According to various embodiments, a through hole in which the first partition member  50   a  is located may be a first through hole, and a through hole in which the second partition member  50   a  is located may be a second through hole, but is not limited thereto. 
     The middle portion  1920  may be provided with a lever insertion protrusion  1924  formed in a position different from the position in which the hook groove  1921  is provided, and configured to be coupled to the lever  1960  and  1970 . 
       FIG. 22  is a perspective view illustrating a lower portion  1930  of the moving guide  1000  according to various embodiments. 
     Referring to  FIG. 22 , according to various embodiments, the lower portion  1930  of the moving guide  1000  may include a middle portion coupling protrusion  1931  formed in the side surface thereof to be coupled to the middle portion  1920  of the moving guide  1000 . The lower portion  1930  may further include a second protrusion  133  formed in the direction perpendicular to the Z axis along the outer surface of a second coupling portion  132 . 
     The lower portion  1930  of the moving guide  1000  may be provided with semicircular spaces  1932  formed in the side surface thereof and through which the first partition member  50   a  and the second partition  50   b  are passed. The semicircular spaces  1932  may form a through hole through which the first partition member  50   a  and the second partition member  50   b  are passed, by being in contact with semicircular spaces  1923  provided on the side surface of the middle portion  1920  of the moving guide  1000 . 
     According to various embodiments, the first partition member  50   a  may be inserted into the first through-hole, and the second partition  50   b  may be inserted into the second through hole, but is not limited thereto. 
     According to various embodiments, an uneven portion  1934  configured to be in contact with a groove  1956  formed on the outside of the second partition fixing portion  1950  may be formed on an inner surface of the lower portion  1930  of the moving guide  1000 . When the second partition fixing portion  1950  vertically moves in the Z axis, the groove  1956  and the uneven portion  1934  may allow the second partition fixing portion  1950  to move without shaking in the left and right side. 
       FIG. 23  is a perspective view illustrating the first partition fixing portion  1940  and the second partition fixing portion  1950  provided in the inside of the moving guide  1000  according to various embodiments. 
     Referring to  FIG. 23A , according to various embodiments, the first partition fixing portion  1940  may include a spring insertion hole  1943  into which the spring  1942 , which is in contact with the inner side of the upper portion  1910  of the moving guide  1000 , is inserted and a stopper coupling groove  1944  to which the first stopper  1941  is coupled. 
     The spring  1942  may be inserted into the spring insertion hole  1943  of the first partition fixing portion  1940 . The spring  1942  may provide the force capable of pushing the first partition fixing portion  1940  in the direction that is away from the upper portion  1910 . In this case, the first partition fixing portion  1940  may be vertically movable in the Z axis direction according to the movement of the lever  1960  and  1970 . 
     According to various embodiments, the first partition fixing portion  1940  may include an inclined surface  1945 . The inclined surface  1945  may come into contact with a first inclined surface  1961  and  1971  of the lever  1960  and  1970 . Therefore, as the lever  1960  and  1970  is moved in the left and right side in the XY plane, it may be possible to apply a force to the inclined surface  1945  of the first partition fixing portion  1940  in contact with the first inclined surface  1961  and  1971  of the lever  1960  and  1970 . By the force applied to the first inclined surface  1961  and  1971  of the lever  1960  and  1970 , the first partition fixing portion  1940  may be moved to the upper side along the Z axis. 
     According to various embodiments, the stopper  1941  may be coupled to the stopper coupling groove  1944  of the first partition fixing portion  1940 . A contact surface of the stopper  1941  may be formed of a material having the high frictional force, e.g., silicon material and rubber material, but is not limited thereto. The shape of the surface in contact with the stopper  1941  may be similar to the appearance of the partition member  50 . For example, the partition member  50  is formed in the cylindrical shape, the shape of the surface in contact with the stopper  1941  may have a rounded shape according to the appearance of the cylinder. 
     The stopper  1941  may be not in contact or be in contact with the partition member  50  according to the vertical movement of the first partition fixing portion  1940 . For example, when the first partition fixing portion  1940  descends along the Z axis, the stopper  1941  may be in contact with the partition member  50 . Thus, the position of the moving guide  1000  may be fixed together with the partition member  50 . 
     When the first partition fixing portion  1940  ascends along the axis Z, the contact between the stopper  1941  and the partition member  50  may be released. Accordingly, the position of the moving guide  1000  may be changed. Therefore, the user can change the size of all the storage space generated by the partition member  50 . 
     Referring to  FIG. 23B , according to various embodiments, the second partition fixing portion  1950  may include a spring insertion hole  1953  into which the spring  1952 , which is in contact with the inner side of the lower portion  1930  of the moving guide  1000 , is inserted and a stopper coupling groove  1954  to which the second stopper  1951  is coupled. 
     The spring  1952  may be inserted into the spring insertion hole  1953  of the second partition fixing portion  1950 . The spring  1952  may be in contact with a lower surface of the lower portion  1930 . In this case, the second partition fixing portion  1950  may be vertically movable in the Z axis direction according to the movement of the lever  1960  and  1970 . 
     According to various embodiments, the second partition fixing portion  1950  may include an inclined surface  1955 . The inclined surface  1955  may come into contact with a second inclined surface  1962  and  1972  of the lever  1960  and  1970 . Therefore, as the lever  1960  and  1970  is moved in the left and right side in the XY plane, it may be possible to apply a force to the inclined surface  1955  of the second partition fixing portion  1950  in contact with the second inclined surface  1962  and  1972  of the lever  1960  and  1970 . By the force applied to the second inclined surface  1962  and  1972  of the lever  1960  and  1970 , the second partition fixing portion  1950  may be moved to the lower side along the Z axis. 
     According to various embodiments, the stopper  1951  may be coupled to the stopper coupling groove  1954  of the second partition fixing portion  1950 . The shape of the surface in contact with the stopper  1951  may be similar to the appearance of the partition member  50 . For example, the partition member  50  is formed in the cylindrical shape, the shape of the surface in contact with the stopper  1951  may have a rounded shape according to the appearance of the cylinder. 
     The stopper  1951  may be not in contact or be in contact with the partition member  50  according to the vertical movement of the second partition fixing portion  1950 . For example, when the second partition fixing portion  1950  ascends along the Z axis, the stopper  1951  may be in contact with the partition member  50 . Thus, the position of the moving guide  1000  may be fixed together with the partition member  50 . 
     When the second partition fixing portion  1950  descends along the axis Z, the contact between the stopper  1951  and the partition member  50  may be released. Accordingly, the position of the moving guide  1000  may be changed. Therefore, the user can change the size of all the storage space generated by the partition member  50 . 
       FIG. 24  is a perspective view illustrating the lever coupled to the side surface of the moving guide  1000  according to various embodiments. 
       FIG. 24A  is a perspective view of the lever  1960  and  1970  when viewed from above, and  FIG. 24B  is a perspective view of the lever  1960  and  1970  when viewed from below. 
     Referring to  FIGS. 24A and 24B , the lever  1960  and  1970  may include the first inclined surface  1961  and  1971 , the second inclined surface  1962  and  1972 , an upper portion coupling groove  1963  and  1973  coupled to the lever insertion protrusion  1913  of the upper portion  1910 , and a middle portion coupling groove  1964  and  1974  coupled to the lever insertion protrusion  1924  of the middle portion  1920 . 
     The lever  1960  and  1970  may be coupled to the upper portion  1910  and the middle portion  1920  such that the upper portion coupling groove  1963  and  1973  are coupled to the lever insertion protrusion  1913  of the upper portion  1910  and the middle portion coupling groove  1964  and  1974  are coupled to the lever insertion protrusion  1924  of the middle portion  1920 . 
     In a state in which all components of the moving guide  1000  is coupled to each other, when a user moves the lever to the inside of the moving guide  1000 , the lever  1960  and  1970  may push the inclined surface of the inclined surface  1945  of the first partition fixing portion  1940  and the inclined surface  1955  of the second partition fixing portion  1950  to move the first partition fixing portion  1940  to the upper side and to move the second partition fixing portion  1950  to the lower side. In this time, the contact between the partition member  50 , and the first partition fixing portion  1940  and the second partition fixing portion  1950  may be released, and the user may easily adjust the size of the space generated by the partition member  50 , by using the moving guide  1000 . 
       FIGS. 25A and 25B  are cross-sectional views illustrating a process in which the partition member is changed from a fixed state to a non-fixed state in the moving guide  100  according to various embodiments. 
     It is assumed that all the components forming the moving guide  100  are coupled to each other. 
     Referring to  FIG. 25A , the first stopper  1941  of the first partition fixing portion  1940  and the second stopper  1951  of the second partition fixing portion  1950  may be in contact with the partition member  50   a  and  50   b . The first partition fixing portion  1940  and the second partition fixing portion  1950  may continuously receive the force in the direction in which the partition member  50   a  and  50   b  are placed, by the spring  1942  and  1952  of  FIG. 23 . 
     Referring to  FIG. 25B , the lever  1960  and  1970  may be moved in a third direction by a user. The third direction may represent a direction inward of the moving guide  1000 . According to the movement of the lever  1960  and  1970 , the first inclined surface  1961  and  1971  may push the inclined surface  1945  of the first partition fixing portion  1940  so as to move the first partition fixing portion  1940  to a fourth direction. The fourth direction may represent the upper direction (+Z axis). According to the movement of the lever  1960  and  1970 , the second inclined surface  1962  and  1972  may push the inclined surface  1955  of the second partition fixing portion  1950  so as to move the second partition fixing portion  1950  to a fifth direction. The fifth direction may represent the lower direction (−Z axis). 
     In this time, the stopper  1941  of the first partition fixing portion  1940  and the stopper  1951  of the second partition fixing portion  1950  may be disengaged from the partition member  50 . Therefore, a user may easily adjust the size of the space generated by the partition member  50  by using the moving guide  1000 . 
     In other words, the first partition member  50   a  and the second partition member  50   b  may configured to move independently from each other or move together at the same time. 
     As is apparent from the above description, according to the proposed storage container having a storage space, since the storage container is provided with a partition member configured to divide the storage space of the storage container by having a first partition movable in a first direction in the storage space, and a second partition movable in a second direction in the storage space while crossing the first partition; and a moving guide provided in the intersection between the first partition and the second partition and configured to guide the movement of the first partition and the second partition and to fix the first partition and the second partition so as not to move and since it is possible to move a partition fixing portion in the moving guide to a direction in contact with the partition member according to the rotation of the upper portion, it is possible to set and fix an inner space, which is desired by a user. 
     Although a few embodiments of the present disclosure have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the disclosure, the scope of which is defined in the claims and their equivalents.