JP2023095341A - Partition member - Google Patents

Abstract

To provide a partition member which can be folded as the situation demands.SOLUTION: A partition member 10 includes: a body 11; an engagement part 12; a first rotation member 14; and a second rotation member 15. The body 11 has: a first major surface 111; and a second major surface 112 facing the first major surface 111. The engagement part 12 is disposed at the side of the first major surface 111 of the body 11 and presents a shape which engages with a storage wall part 30 from above. The first rotation member 14 is rotatably connected to the body 11. The second rotation member 15 is rotatably connected to the first rotation member 14. In a storage state, the second rotation member 15 moves close to the second major surface 112 of the body 11. In a partitioning state, the second rotation member 15 is substantially perpendicular to the second major surface 112 of the body 11.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to a partition member, and more particularly to a partition member that separates the inside of a refrigerator storage compartment.

A general refrigerator has a refrigerator compartment, a freezer compartment, and a vegetable compartment as storage compartments. The front openings of the refrigerator compartment, freezer compartment and vegetable compartment are closed by heat insulating doors. In addition, the front opening of the refrigerator compartment is closed by a rotary heat insulating door. A storage pocket surrounded by a plate-shaped resin member is provided on the inner surface of the heat insulating door. Beverage containers and seasoning containers can be stored upright in the storage pocket. However, since the storage pocket is elongated in the width direction, even if a beverage container or the like is stored upright in the storage pocket, the beverage container or the like falls down inside the storage pocket. Therefore, there is a problem that taking out the fallen beverage container or the like impairs the user's convenience.

Patent Literature 1 describes a partition that partitions a storage pocket. The partition described in Patent Literature 1 has a partition member and a holding member. The partition member has an elongated plate shape for partitioning the storage space of the refrigerator. The holding member is slidably mounted so as to position the partition member at an arbitrary position in the storage space. The partition member is rotatably mounted on the holding member about its longitudinal central axis. As a result, the partition member can be placed in a horizontal posture, and the strength and bending rigidity against lateral external force can be ensured.

JP-A-11-23144

However, the partitioning tool according to the background art described above has room for improvement from the viewpoint of partitioning the internal space of the storage compartment more efficiently.

Specifically, the relative position and angle between the partition member and the holding member described in Patent Document 1 were fixed. Therefore, when the partitioning function of the storage pocket was deemed unnecessary, it was necessary to remove the partition from the storage pocket.

Furthermore, the holding member is formed with a fitting groove that fits into the wall of the storage pocket, but the width of the fitting groove cannot be adjusted. Therefore, there is a problem that the holding member cannot be attached unless the wall portion of the storage pocket is thick enough to be fitted into the fitting groove of the holding member.

SUMMARY OF THE INVENTION The present invention has been made in view of the circumstances described above, and an object of the present invention is to provide a partition member that can be folded according to circumstances.

The partition member of the present invention is a partition member arranged in a storage area surrounded by a storage wall, and can take a storage state in which the storage area is not partitioned and a partition state in which the storage area is partitioned, a body portion, an engaging portion, a first rotating member, and a second rotating member, the body portion having a first main surface; a second main surface facing the first main surface; wherein the engaging portion is arranged on the side of the first main surface of the main body portion and has a shape capable of being engaged with the storage wall portion from above; and the second rotating member is rotatably connected to the first rotating member, and in the stored state, the second rotating member is connected to the second main body of the main body. It is characterized in that, in the partitioned state, the second rotating member is substantially perpendicular to the second main surface of the body.

Further, in the partition member of the present invention, the first rotating member and the second rotating member approach the second main surface of the main body in the housed state, and the first rotating member approaches the main surface in the partition state. is substantially perpendicular to the second main surface of the main body, and the second rotating member is substantially perpendicular to the main surface of the first rotating member.

In addition, the partition member of the present invention further includes a reinforcing portion, one end of the reinforcing portion is rotatably connected to the first rotating member, and the other end of the reinforcing portion is connected to the main body portion. It is characterized in that it can be slid at the

Moreover, in the partition member of the present invention, the reinforcing portion is housed in the first rotating member in the partition state.

Further, in the partition member of the present invention, the engaging portion has an engaging main body portion and an engaging movable portion, and the rotating shaft portion formed on the lower end side of the engaging movable portion includes the engaging portion. The engaging protrusion formed on the upper end side of the engaging movable portion is rotatably supported by the supporting portion of the joint body portion and engages with the engaging groove of the engaging body portion, and the engaging groove is formed in the engaging groove. , a plurality of storage walls are formed along the thickness direction of the storage wall.

Further, in the partition member of the present invention, in the housed state, the first rotating member has a longitudinal direction along a substantially horizontal direction in a state of being close to the second main surface of the main body, and the partition member In a state, the first rotating member has a longitudinal direction along a substantially vertical direction in a state close to the second main surface of the body portion.

The partition member of the present invention is a partition member arranged in a storage area surrounded by a storage wall, and can take a storage state in which the storage area is not partitioned and a partition state in which the storage area is partitioned, a body portion, an engaging portion, a first rotating member, and a second rotating member, the body portion having a first main surface; a second main surface facing the first main surface; wherein the engaging portion is arranged on the side of the first main surface of the main body portion and has a shape capable of being engaged with the storage wall portion from above; and the second rotating member is rotatably connected to the first rotating member, and in the stored state, the second rotating member is connected to the second main body of the main body. It is characterized in that, in the partitioned state, the second rotating member is substantially perpendicular to the second main surface of the body.

According to the partition member of the present invention, a partition member that can be folded according to the situation is provided. Specifically, in the retracted state, the second rotating member approaches the second main surface of the main body, so that the second rotating member can be easily retracted when the dividing function is not required. In addition, in the partitioned state, the second rotating member is set substantially perpendicular to the second main surface of the main body, so that the storage area can be divided into arbitrary locations by the second rotating member when a partitioning function is required. can be separated by

Further, in the partition member of the present invention, the first rotating member and the second rotating member approach the second main surface of the main body in the housed state, and the first rotating member approaches the main surface in the partition state. is substantially perpendicular to the second main surface of the main body, and the second rotating member is substantially perpendicular to the main surface of the first rotating member.

According to the partition member of the present invention, in the partitioned state, the storage area can be separated by the main surface of the second rotating member by making the second rotating member substantially perpendicular to the main surface of the first rotating member. can.

In addition, the partition member of the present invention further includes a reinforcing portion, one end of the reinforcing portion is rotatably connected to the first rotating member, and the other end of the reinforcing portion is connected to the main body portion. It is characterized in that it can be slid at the

According to the partition member of the present invention, by supporting the first rotating member with the reinforcing portion, it is possible to prevent the first rotating member from rotating unintentionally in the partitioned state.

Moreover, in the partition member of the present invention, the reinforcing portion is housed in the first rotating member in the partition state.

According to the partition member of the present invention, by housing the reinforcing portion in the first rotating member, the rotating position of the first rotating member can be firmly fixed by the reinforcing portion.

Further, in the partition member of the present invention, the engaging portion has an engaging main body portion and an engaging movable portion, and the rotating shaft portion formed on the lower end side of the engaging movable portion includes the engaging portion. The engaging protrusion formed on the upper end side of the engaging movable portion is rotatably supported by the supporting portion of the joint body portion and engages with the engaging groove of the engaging body portion, and the engaging groove is formed in the engaging groove. , a plurality of storage walls are formed along the thickness direction of the storage wall.

According to the partition member of the present invention, even when the thickness of the storage wall differs, the engagement with the storage wall can be achieved by changing the position of the engagement groove with which the engagement protrusion of the engagement movable part engages. The joint can be firmly engaged.

Further, in the partition member of the present invention, in the housed state, the first rotating member has a longitudinal direction along a substantially horizontal direction in a state of being close to the second main surface of the main body, and the partition member In a state, the first rotating member has a longitudinal direction along a substantially vertical direction in a state close to the second main surface of the body portion.

According to the partition member of the present invention, it is possible to easily switch between the storage state and the partition state by rotating the first rotating member in a state of being close to the second main surface of the main body.

FIG. 4 is a perspective view showing a storage state of the partition member according to the embodiment of the present invention; 1 is an exploded perspective view of a partition member according to an embodiment of the present invention as viewed from the front; FIG. FIG. 4 is an exploded perspective view of the partition member according to the embodiment of the present invention when viewed from the rear; FIG. 4 is an exploded perspective view of the movable engaging portion of the partition member according to the embodiment of the present invention as viewed from the rear; FIG. 5 is a cross-sectional view showing a configuration in which the thickness of the internal space of the engaging portion changes in the partition member according to the embodiment of the present invention; FIG. 5 is a cross-sectional view showing a configuration in which the thickness of the internal space of the engaging portion changes in the partition member according to the embodiment of the present invention; 4 is a perspective view showing a rotating state of the partition member according to the embodiment of the present invention; FIG. FIG. 4 is a perspective view showing a partitioning state of the partitioning member according to the embodiment of the present invention; FIG. 4 is a perspective view showing a state in which the storage area of the refrigerator is partitioned by the partition member according to the embodiment of the present invention; FIG. 11 is a perspective view showing a stored state of a partition member according to another embodiment of the present invention; FIG. 11 is an exploded perspective view showing a partition member according to another embodiment of the present invention; FIG. 11 is a perspective view showing a rotating state of a partition member according to another embodiment of the present invention; FIG. 11 is a perspective view showing a partitioning state of a partitioning member according to another embodiment of the present invention; FIG. 11 is a cutaway perspective view showing a partitioning state of a partitioning member according to another embodiment of the present invention; FIG. 11 is an enlarged cutaway perspective view showing a partitioning state of a partitioning member according to another embodiment of the present invention;

A partition member 10 according to an embodiment of the present invention will be described in detail below with reference to the drawings. In the following description, the same reference numerals are given to the same members in principle, and repeated descriptions will be omitted. Furthermore, in the following description, directions of up, down, front, back, left, and right are appropriately used.

FIG. 1 is a perspective view showing a storage state of the partition member 10. FIG. The partition member 10 is a member arranged in a storage area 31 surrounded by a storage wall portion 30 of a refrigerator 32, which will be described later. As will be described later, the partition member 10 can take a storage state in which the storage wall portion 30 is not partitioned and a partition state in which the storage wall portion 30 is partitioned. Furthermore, the partition member 10 can also take a rotating state, which is an intermediate state between the housed state and the partitioning state. Transitions between states are performed by the user deforming the partition member 10 .

The partition member 10 mainly includes a body portion 11 , an engaging portion 12 , a first rotating member 14 and a second rotating member 15 . Each member constituting the partition member 10 is made of a synthetic resin formed into a predetermined shape by injection molding or the like.

The body portion 11 is a substantially rectangular parallelepiped member that supports each member that constitutes the partition member 10 . The body portion 11 has a first main surface 111 that is a flat surface facing rearward, and a second main surface 112 that is a flat surface facing the first main surface 111 .

The engaging portion 12 is arranged on the side of the first main surface 111 of the main body portion 11, here, on the rear side, and has a shape that can be engaged with a storage wall portion 30 to be described later from above. Details of the engaging portion 12 will be described later with reference to FIG. 4 and the like.

The first rotating member 14 is rotatably connected to the second main surface 112 of the body portion 11 . Specifically, the first rotating member 14 is a member having a vertical longitudinal direction. An upper end portion of the first rotating member 14 is rotatably connected to the main body portion 11 via a rotating shaft 18 extending along the left-right direction.

The second rotating member 15 is a substantially plate-shaped member rotatably connected to the first rotating member 14 . In the housed state shown in FIG. 1 , the right upper and lower ends of the second rotating member 15 are rotatably connected to the first rotating member 14 . As will be described later, the second rotating member 15 substantially functions as a member for partitioning.

The first rotating member 14 and the second rotating member 15 approach the second main surface 112 of the body portion 11 in the housed state shown in FIG. Specifically, the rear surface of the first rotating member 14 and the rear surface of the second rotating member 15 are in close contact with the second main surface 112 of the body portion 11 . With such a configuration, when the partition member 10 is stored, the first rotating member 14 and the second rotating member 15 do not protrude forward, and the partition member 10 as a whole can be made compact.

The reinforcement portion 16 is a member that reinforces the first rotating member 14 and regulates the rotation range of the partition member 10 . The upper end portion of the reinforcing portion 16 is connected to the intermediate portion of the first rotating member 14 via the rotating shaft 17 . A lower end portion of the reinforcing portion 16 is arranged inside the main body portion 11 and is slidably connected to the main body portion 11 .

FIG. 2 is an exploded perspective view of the partition member 10 viewed from the front. FIG. 3 is an exploded perspective view of the partition member 10 viewed from the rear.

The partition member 10 has a second rotating member 15, a first rotating member 14, a reinforcing portion 16, a body portion 11, an engaging portion 12, and an engaging movable portion 13 from the front side.

The second rotating member 15 is a substantially plate-shaped member that functions as a partition plate. Concave rotary shaft recesses 151 are formed at the upper and lower ends of the right side of the second rotating member 15 . The second rotating member 15 is rotatable around the rotating shaft concave portion 151 as a center of rotation.

The first rotating member 14 is a member that rotatably supports the second rotating member 15, and is a substantially bar-shaped member that extends along the vertical direction. An insertion hole 141 , an insertion hole 142 and a rotary shaft concave portion 143 are formed in the first rotating member 14 . The insertion hole 141 is a portion that is rotatably connected to the body portion 11 . The insertion hole 142 is rotatably connected to the reinforcing portion 16 . The rotating shaft concave portion 143 is a concave portion formed in the upper end portion and the lower end portion of the first rotating member 14 . A rotating shaft (not shown) is inserted between the rotating shaft recess 151 of the second rotating member 15 and the rotating shaft recess 143 of the first rotating member 14 . Thereby, the second rotating member 15 and the first rotating member 14 are rotatably connected.

The reinforcing portion 16 is a substantially bar-shaped member with a bent intermediate portion, and has an insertion hole 161 and a locking shaft portion 162 . The insertion hole 161 is a hole that penetrates the upper end of the reinforcement portion 16 . The rotating shaft 17 passes through the insertion hole 142 of the first rotating member 14 and the insertion hole 161 of the reinforcing portion 16 . Thereby, the intermediate portion of the first rotating member 14 and the upper end portion of the reinforcing portion 16 are rotatably connected. The locking shaft portion 162 is a portion where the lower end portion of the reinforcing portion 16 protrudes rightward and leftward in a substantially cylindrical shape. The locking shaft portion 162 is arranged inside the body portion 11 .

The body portion 11 has a body front portion 113 and a body rear portion 114 .

The body front portion 113 forms the front portion of the body portion 11 . Specifically, as shown in FIG. 3, the main body front portion 113 has a substantially lid-like shape that opens rearward. In addition, as shown in FIG. 2 , a mounting portion 115 and slits 117 are formed on the second main surface 112 of the main body front portion 113 .

The mounting portion 115 is a wall portion erected forward from the upper end portion of the second main surface 112 . Two mounting portions 115 are formed at a predetermined interval. A through-hole 116 is formed by opening the mounting portion 115 . An upper end portion of the first rotating member 14 is arranged between the mounting portions 115 . Further, the rotating shaft 18 is inserted through the insertion hole 141 and the insertion hole 116 of the first rotating member 14 . With such a configuration, the first rotating member 14 is rotatably connected to the main body portion 11 with the rotating shaft 18 as the center of rotation.

The slit 117 is a portion formed by opening the front surface of the main body 11 in a slit shape along the vertical direction. Also, the slit 117 is formed below the mounting portion 115 . The lower portion of the reinforcement portion 16 is accommodated inside the body portion 11 via the slit 117 .

The main body rear portion 114 is a substantially plate-shaped member, and the inner space of the main body portion 11 is formed by closing the rear surface opening of the main body front portion 113 with the main body rear portion 114 .

The engaging portion 12 is a portion that protrudes rearward from the rear surface of the main body rear portion 114 . When viewed from the right side, the engaging portion 12 has a substantially downward hook shape. The engaging portion 12 is a portion for engaging with a storage wall portion 30 of a refrigerator 32, which will be described later. The configuration of the engaging portion 12 will be described later with reference to FIG.

The movable engaging portion 13 is assembled to the engaging portion 12 from the rear, and is a portion that adjusts the thickness of the internal gap of the engaging portion 12 . Details of the engaging movable portion 13 will be described later with reference to FIG. 4 .

With reference to FIG. 3 , a storage area 152 is formed in the second rotating member 15 . The storage area 152 is an area corresponding to the intermediate portion of the reinforcing portion 16 and is surrounded by the ribs of the second rotating member 15 . As will be described later, in the partitioned state, the intermediate portion of the reinforcing portion 16 is stored in the storage area 152 .

FIG. 4 is an exploded perspective view of the engaging portion 12 as viewed from the rear. The engaging portion 12 has an engaging body portion 121 and an engaging movable portion 13 .

The engaging body portion 121 is a portion that extends rearward in a substantially hook shape from the upper end of the body rear portion 114 when viewed from the right. Further, the engaging body portion 121 has a substantially U shape when viewed from the rear. Thereby, the engaging movable portion 13 can be accommodated in the engaging body portion 121 . An internal space 124 is formed between the rear surface of the main body rear portion 114 and the engaging main body portion 121 .

A supporting concave portion 122 and an engaging groove 123 are formed in the engaging body portion 121 . The support concave portion 122 is a portion in which the inner lower end of the engaging body portion 121 is concave. The engagement groove 123 is a portion formed in a groove shape on the upper surface near the upper end of the engagement body portion 121 . A plurality of engaging grooves 123 are formed along the front-rear direction, which is the thickness direction of the storage wall portion 30, which will be described later.

The movable engaging portion 13 is a substantially plate-shaped member and has an engaging projecting portion 131 and a rotating shaft portion 132 .

The engaging projecting portion 131 is a portion projecting in a substantially cylindrical shape from the upper end portion of the engaging movable portion 13 toward the left side and the right side. The engaging protrusion 131 engages with the engaging groove 123 of the engaging body 121 from above. A related configuration between the engaging groove 123 and the engaging protrusion 131 will be described later with reference to FIG.

The rotating shaft portion 132 is a portion that protrudes leftward and rightward in a substantially cylindrical shape from the lower end portion of the movable engaging portion 13 . The rotating shaft portion 132 of the movable engaging portion 13 is inserted into the support concave portion 122 of the engaging body portion 121 from behind. Thereby, the lower end portion of the movable engaging portion 13 is rotatably connected to the engaging body portion 121 about the axis of the rotating shaft portion 132 .

5A and 5B are cross-sectional views showing configurations in which the width of the gap inside the engaging portion 12 changes.

As described above, a plurality of engaging grooves 123 are formed in the upper portion of the engaging body portion 121 along the front-rear direction. Therefore, by changing the engagement groove 123 with which the engagement projecting portion 131 of the engagement movable portion 13 engages, the position of the engagement movable portion 13 in the front-rear direction is changed, thereby changing the width of the internal space 124. be able to.

Specifically, in the cross-sectional view shown at the left end of FIG. 5A, the engaging protrusion 131 of the engaging movable portion 13 engages with the engaging groove 123 at the rearmost portion. By doing so, the upper end of the engaging movable portion 13 is arranged on the rear side. Therefore, the width of the internal space 124 can be made about 8 mm.

In the cross-sectional view shown at the center end of FIG. 5A, the engaging protrusion 131 of the engaging movable portion 13 is engaged with the engaging groove 123 one before. By doing so, the upper end of the engaging movable portion 13 moves forward, and the width of the internal space 124 can be reduced to about 7 mm. The rotating shaft portion 132, which is the lower end of the movable engaging portion 13, only rotates inside the support concave portion 122 of the engaging body portion 121, and does not move in the front-rear direction.

In the cross-sectional view shown on the right end of FIG. 5A, the engaging projection 131 of the engaging movable portion 13 is engaged with the engaging groove 123 one ahead. By doing so, the upper end of the engaging movable portion 13 moves further forward, and the width of the internal space 124 can be reduced to about 6 mm.

In the cross-sectional view shown on the left side of FIG. 5B, the engaging protrusion 131 of the engaging movable portion 13 is engaged with the engaging groove 123 one before. By doing so, the upper end of the engaging movable portion 13 moves further forward, and the width of the internal space 124 can be reduced to about 5 mm.

In the cross-sectional view shown on the right side of FIG. 5B, the engaging projection 131 of the engaging movable portion 13 is engaged with the engaging groove 123 on the frontmost side. By doing so, the upper end of the engaging movable portion 13 is moved to the frontmost side, and the width of the internal space 124 can be reduced to about 4 mm.

A storage wall portion 30 of a refrigerator 32 , which will be described later, is inserted into the internal space 124 of the engaging portion 12 . In this embodiment, even if the thickness of the storage wall portion 30 differs depending on the type of the refrigerator 32 to be described later, this can be dealt with by adjusting the positions of the engagement groove 123 and the engagement projection portion 131 . That is, when the storage wall portion 30 is thick, as shown in the cross-sectional view at the left end of FIG. lengthen the On the other hand, when the storage wall portion 30 is thin, as shown in the cross-sectional view on the right side of FIG. be shortened.

6 is a perspective view showing the rotating state of the partition member 10. FIG. The rotating state is a state in which only the first rotating member 14 is rotated, and is a state between the stored state and the partitioned state.

When the partition member 10 is changed from the housed state to the rotating state, the first rotating member 14 and the second rotating member 15 are rotated approximately 90 degrees around the rotating shaft 18 . When viewed from the right, the first rotating member 14 rotates clockwise by approximately 90 degrees.

When the first rotating member 14 rotates, the reinforcing portion 16 is also displaced at the same time. Specifically, the upper end portion of the reinforcing portion 16 is connected to the intermediate portion of the first rotating member 14 via the rotating shaft 17, so that it moves upward and forward. Along with this, the lower end portion of the reinforcing portion 16 also moves upward and contacts the upper end portion of the slit 117 . Thereby, the rotation angle of the first rotating member 14 is defined.

FIG. 7 is a perspective view showing the partitioning state of the partitioning member 10. As shown in FIG.

When shifting from the rotating state to the partitioning state, the second rotating member 15 is rotated around the rotating shaft concave portion 143 of the first rotating member 14 as the center of rotation. Specifically, when viewed from the front, the second rotating member 15 is rotated approximately 90 degrees counterclockwise.

When the second rotating member 15 is rotated, the intermediate portion of the reinforcing portion 16 is stored in the storage area 152 of the second rotating member 15 . By doing so, the rotational position of the second rotating member 15 is defined. Further, the rotational position of the second rotating member 15 is also fixed by abutting the rear side surface of the second rotating member 15 against the second main surface 112 of the main body portion 11 . Furthermore, the second rotating member 15 is reinforced by the reinforcing portion 16 . Therefore, even when a large PET bottle or the like leans against the second rotating member 15 under usage conditions, the second rotating member 15 can be prevented from being deformed or damaged.

FIG. 8 is a perspective view showing a state in which the storage area 31 is partitioned by the partition member 10. As shown in FIG.

FIG. 8 shows the heat insulating door 33 of the refrigerator 32. As shown in FIG. The heat insulation door 33 is a rotary door that closes the front opening of the refrigerator compartment. A storage pocket 34 is formed at the lower end of the inner surface of the heat insulating door 33 . The storage pocket 34 is a storage space defined by the storage wall portion 30, and stores PET bottles, seasonings, and the like.

The partition member 10 described above is arranged in the storage pocket 34 in a partitioned state. Specifically, the engaging portion 12 of the partition member 10 in the partitioned state engages with the storage wall portion 30 from above. Further, the storage area 31 is partitioned in the left-right direction by the second rotating member 15 of the partition member 10 . Therefore, even when a PET bottle or the like is stored in the storage area 31 , the PET bottle or the like is received by the second rotating member 15 , and the PET bottle or the like can be prevented from falling inside the storage pocket 34 .

In addition, when the partition function is not required inside the storage wall portion 30, the partition member 10 is placed in the storage state shown in FIG. be able to.

A configuration of a partition member 10 according to another embodiment of the present invention will be described with reference to FIGS. 9 to 12. FIG. In the following description, the same reference numerals are applied to parts equivalent to those according to the above-described embodiment.

FIG. 9 is a perspective view showing a stored state of the partition member 10 according to another embodiment.

The partition member 10 has a body portion 11 , a first rotating member 14 , a second rotating member 15 , a rotating member support portion 19 , an engaging portion 12 and an engaging movable portion 13 . The partition member 10 has a first rotating member 14 and a second rotating member 15 as rotating portions that are rotatable with respect to the main body portion 11, and the rotation configuration of these members is the same as that of the partition member 10 shown in FIG. different from Other configurations are the same as those of the partition member 10 shown in FIG.

Specifically, the first rotating member 14 is rotatably connected to the body portion 11 via a rotating shaft 18 . The first rotating member 14 is also supported from the front by a rotating member support portion 19 . The second rotating member 15 is rotatably connected to the first rotating member 14 via a rotating shaft 20 . Here, the rotating shaft 18 is parallel to the front-rear direction. The rotating shaft 20 is parallel to the left-right direction.

In the housed state shown in FIG. 9, the first rotating member 14 is in close contact with the second main surface 112 of the main body 11 and has its longitudinal direction along the substantially horizontal direction. Also, the rear surface of the first rotating member 14 is in close contact with the second main surface 112 of the first main surface 111 . With such a configuration, the first rotating member 14 and the second rotating member 15 do not protrude to the outside, and the partition member 10 is made compact as a whole.

FIG. 10 is an exploded perspective view showing a partition member 10 according to another embodiment.

A rotating shaft 18 is formed on the right end side of the first rotating member 14, and the rotating shaft 18 protrudes forward in a substantially cylindrical shape. A rotating shaft 145 is formed on the rear surface of the first rotating member 14 and at a position overlapping the rotating shaft 18 . The rotary shaft 145 protrudes rearward in a substantially cylindrical shape and is inserted into the insertion hole 119 of the main body 11 . Further, rotating shaft recesses 143 are formed at both left and right end portions of the first rotating member 14 . Furthermore, an engagement projection 144 is formed in the intermediate portion of the rear surface of the first rotating member 14 . The engaging projection 144 is a substantially cylindrical portion that protrudes rearward and is inserted into the guide groove 118 of the main body 11 .

The rotating member support portion 19 is a substantially plate-like portion that covers the right end portion of the first rotating member 14 from the front on the right end side of the main body portion 11 . An insertion hole 191 is formed by passing through the front portion of the rotating member support portion 19 . The rotating shaft 18 of the first rotating member 14 is rotatably inserted into the insertion hole 191 of the rotating member support portion 19 .

A rotating shaft concave portion 151 is formed on the upper end side of the left side surface and the right side surface of the second rotating member 15 . A rotating shaft (not shown) is inserted into the rotating shaft concave portion 151 of the second rotating member 15 and the rotating shaft concave portion 143 of the first rotating member 14 . With such a configuration, the rotation shaft 20 described above is formed at the upper end of the second rotation member 15 and is rotatably connected to the first rotation member 14 .

An insertion hole 119 and a guide groove 118 are formed in the front surface of the body portion 11 . The insertion hole 119 is a substantially circular hole into which the rotating shaft 145 of the first rotating member 14 is inserted. The guide groove 118 is a region in which the front surface of the body portion 11 is partially recessed in a groove shape. When the main body 11 is viewed from the front, the guide groove 118 has a shape corresponding to an arc with the insertion hole 119 as the center.

Further, the partition member 10 is provided with a fixing rib 1111 and a fixing rib 146 in order to define the rotational position of the first rotating member 14 in the partitioned state. The fixing rib 1111 is formed on the upper surface of the lower wall portion 1110 . Here, the lower wall portion 1110 is a portion that protrudes forward in the vicinity of the lower side of the main body portion 11 in a wall shape. The fixing rib 1111 is a wall-like portion projecting upward from the upper surface of the lower wall portion 1110, and is elongated in the front-rear direction.

The fixing rib 146 is a wall-like portion projecting leftward from the left side surface of the first rotating member 14, and is elongated in the front-rear direction. The fixing rib 1111 and the fixing rib 146 are engaged when the partition member 10 is in the partition state. Such an engagement structure will be described later with reference to FIG. 13 .

FIG. 11 is a perspective view showing a rotating state of the partition member 10 according to another embodiment. When transitioning from the stored state to the rotating state described above, the second rotating member 15 rotates around the rotating shaft 20 . Specifically, when the partition member 10 is viewed from the left, the second rotating member 15 rotates approximately 90 degrees counterclockwise. On the other hand, the first rotating member 14 does not rotate here, and maintains a state in which the longitudinal direction extends along the left-right direction.

FIG. 12 is a perspective view showing a partitioning state of the partitioning member 10 according to another embodiment. When transitioning from the rotating state to the partitioning state, the first rotating member 14 rotates while being in close contact with the second main surface 112 of the body portion 11 . Specifically, when the partition member 10 is viewed from the front, the second rotating member 15 rotates approximately 90 degrees counterclockwise around the rotating shaft 18 . When the first rotating member 14 rotates, the engaging convex portion 144 of the first rotating member 14 shown in FIG. 10 is guided by the guide groove 118 of the main body portion 11 .

In the partitioned state, the second rotating member 15 is substantially perpendicular to the second main surface 112 of the body portion 11 . In addition, the second rotating member 15 functions as a partition with its maximum surface facing in the left-right direction. Further, the first rotating member 14 maintains a state of having a longitudinal direction along the vertical direction by rotating.

13A is an exploded perspective view of the partition member 10 cut along the AA section of FIG. 12. FIG. FIG. 13B is an enlarged view of the area surrounded by the dotted line in FIG. 13A.

Referring to FIG. 13A , when partition member 10 is in the partition state, fixing rib 146 of first rotating member 14 engages with fixing rib 1111 of main body 11 .

Referring to FIG. 13B, fixing rib 146 protrudes downward from the lower surface of first rotating member 14 . The fixing rib 1111 protrudes upward from the upper surface of the lower wall portion 1110 . When the rotating state is changed to the partitioning state, the fixing rib 146 overcomes the fixing rib 1111 and engages the first main surface 111 from the right side by rotating the first rotating member 14 counterclockwise. match. As a result, even when a PET bottle or the like leans against the second rotating member 15 in the partitioned state, it is possible to prevent the first rotating member 14 from inadvertently rotating clockwise.

The partition member 10 according to another embodiment described above is used to partition the storage area 31 of the refrigerator 32 as shown in FIG.

According to this embodiment, the main effects described below can be obtained.

Referring to FIG. 1, in the stored state, the second rotating member 15 approaches the second main surface 112 of the body portion 11, so that the second rotating member 15 can be easily stored when the dividing function is unnecessary. be able to. In addition, in the partition state shown in FIG. 7, the second rotating member 15 is substantially perpendicular to the second main surface 112 of the main body 11, so that the second rotating member 15 can be used when the partitioning function is required. 15 can partition the storage wall portion 30 at an arbitrary point.

Referring to FIG. 7 , in the partitioned state, the second rotating member 15 is substantially perpendicular to the main surface of the first rotating member 14 , so that the main surface of the second rotating member 15 can move the storage wall portion 30 . can be separated.

Referring to FIG. 7, by supporting the first rotating member 14 with the reinforcing portion 16, it is possible to prevent the first rotating member 14 from rotating unintentionally in the partitioned state.

Referring to FIG. 7 , by housing reinforcing portion 16 in first rotating member 14 , reinforcing portion 16 can firmly fix the rotational position of first rotating member 14 .

5A and the like, even when the thickness of the storage wall portion 30 is different, by changing the position of the engagement groove 123 with which the engagement projection portion 131 of the engagement movable portion 13 is engaged, the storage wall portion 30 can be adjusted. The engaging portion 12 can be firmly engaged with the .

With reference to FIG. 12 and the like, by rotating the first rotating member 14 in close contact with the second main surface 112 of the body portion 11, it is possible to easily switch between the stored state and the partitioned state.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. Moreover, each form described above can be combined with each other.

For example, the fixing rib 1111 and the fixing rib 146 shown in FIG. 10 can be formed on the partition member 10 shown in FIG. For example, the fixing rib 1111 is formed on the portion of the second rotating member 15 that contacts the reinforcing portion 16 . A fixing rib 146 is formed in a portion of the reinforcing portion 16 that contacts the second rotating member 15 . Furthermore, in the partitioned state shown in FIG. 7, the fixing rib 1111 and the fixing rib 146 are engaged. By doing so, it is possible to prevent the second rotating member 15 from accidentally rotating in the partitioned state.

10 Partition member 11 Body part 111 First main surface 112 Second main surface 113 Main body front part 114 Main body rear part 115 Mounting part 116 Insertion hole 117 Slit 118 Guide groove 119 Insertion hole 1110 Lower wall part 1111 Fixing rib 12 Engagement part 121 Engagement body 122 Support recess 123 Engagement groove 124 Internal space 13 Engagement movable part 131 Engagement projection 132 Rotating shaft 14 First rotating member 141 Insertion hole 142 Insertion hole 143 Rotating shaft recess 144 Engagement projection 145 Rotation Shaft 146 Fixing rib 15 Second rotating member 151 Rotating shaft concave portion 152 Storage area 16 Reinforcement portion 161 Insertion hole 162 Locking shaft portion 17 Rotating shaft 18 Rotating shaft 19 Rotating member support portion 191 Insertion hole 20 Rotating shaft 30 Storage wall portion 31 Storage area 32 Refrigerator 33 Insulated door 34 Storage pocket

Claims (6)

A partition member disposed in a storage area surrounded by a storage wall, and can take a stored state in which the storage area is not partitioned and a partitioned state in which the storage area is partitioned,
comprising a body portion, an engaging portion, a first rotating member, and a second rotating member;
The body portion has a first main surface and a second main surface facing the first main surface,
The engaging portion is disposed on the first main surface side of the main body portion and has a shape that can be engaged with the storage wall portion from above,
The first rotating member is rotatably connected to the main body,
the second rotating member is rotatably connected to the first rotating member;
In the housed state, the second rotating member approaches the second main surface of the main body,
The partition member, wherein in the partition state, the second rotary member is substantially perpendicular to the second main surface of the main body. In the housed state, the first rotating member and the second rotating member approach the second main surface of the main body,
In the partition state, the first rotating member is substantially perpendicular to the second main surface of the main body, and the second rotating member is substantially perpendicular to the main surface of the first rotating member. The partition member according to claim 1, characterized in that there is a further comprising a reinforcing part,
one end of the reinforcing portion is rotatably connected to the first rotating member;
3. The partitioning member according to claim 2, wherein the other end of said reinforcing portion is slidable with respect to said main body portion. 4. The partitioning member according to claim 3, wherein the reinforcing portion is housed in the first rotating member in the partitioning state. The engaging portion has an engaging body portion and an engaging movable portion,
a rotating shaft portion formed on the lower end side of the movable engaging portion is rotatably supported by a supporting portion of the engaging body portion;
an engaging protrusion formed on the upper end side of the engaging movable portion engages with the engaging groove of the engaging main body;
5. The partitioning member according to claim 1, wherein a plurality of said engaging grooves are formed along the thickness direction of said storage wall. In the housed state, the first rotating member has a longitudinal direction along a substantially horizontal direction in a state of being close to the second main surface of the main body,
2. The partitioning member according to claim 1, wherein in the partitioning state, the first rotating member has a longitudinal direction along a substantially vertical direction in a state of being close to the second main surface of the main body. .

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