JP2007155324A - Refrigerator rail assembly and refrigerator storage box extracting/retracting device including the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a further safely usable refrigerator rail assembly and a refrigerator storage box extracting/retracting device including the same. <P>SOLUTION: The refrigerator rail assembly includes: a guide rail provided on a side of the storage space to extend in the front-to-rear direction of the storage space, the guide rail having a guide channel formed in the longitudinal direction of the guide rail and opened at a side thereof; a movable rail having a guide channel formed in the longitudinal direction of the movable rail and opened at a side opposed to the guide channel of the guide rail, the storage box being removably installed to the movable rail; an intermediate rail having a pair of guide flanges which are inserted into the guide channels, respectively; and a plurality of ball bearings interposed between the guide channels and the guide flanges. The guide rail and the movable rail move in relation to the intermediate rail, so that the storage box is extracted from or retracted into the storage space. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a refrigerator, and more particularly, to a rail assembly for a refrigerator for guiding a storage box that goes in and out of a storage space of the refrigerator and a refrigerator storage box loading / unloading apparatus including the same.

  A storage space is provided in the main body of the refrigerator, and the storage space is selectively opened and closed by a door. The door opens and closes the storage space by a pivoting type or a drawer type. In particular, when the storage space is opened and closed by the door, a storage box is provided so that the storage space can be opened and closed with the door. A rail assembly is provided to guide the storage box that enters and exits the storage space.

  FIG. 8 is a perspective view showing the inside of a refrigerator provided with a refrigerator storage box access device according to the prior art.

  As illustrated, a storage space 11 is provided inside the refrigerator body 10. The storage space 11 is selectively opened and closed by a drawer type by a door (not shown). A storage box is provided so as to be able to enter and exit the storage space 11 and a pair of rail assemblies 20 are provided to guide the storage box.

  The rail assembly 20 includes guide rails 21 fixed to both side surfaces of the storage space 11, an intermediate rail 23 provided so as to be movable along the guide rail 21, and movable along the intermediate rail 23. It includes a moving rail 25 provided. The moving rail 25 is connected to the door and the storage box. Therefore, if the door opens and closes the storage space 11 by a drawer type, the moving rail 25 and the intermediate rail 23 move along the intermediate rail 23 and the guide rail 21 in association with this, so that the storage The box goes in and out of the storage space 11.

  Meanwhile, the rail assembly 20 includes a self-closing unit. The self-closing unit is for allowing the storage box to be stored in the storage space 11 more easily. For example, the self-closing unit includes a moving member that moves along the guide rail 21, an elastic member that gives the moving member an elastic force toward the rear of the storage space 11, and a rear stage of the moving rail 25. The movable rail 25 and the intermediate rail 23 are configured to include a drawer interlocking protrusion that is selectively locked to the movable member in a state where the movable rail 25 and the intermediate rail 23 are moved by a predetermined distance to the rear of the storage space 11.

  However, the refrigerator storage box access device according to the prior art as described above has the following problems.

  As described above, the self-closing unit applies an elastic force toward the rear of the storage space 11 to the moving rail 25. Accordingly, the speed at which the storage box is received by the self-closing unit in a state where the storage box is received by a predetermined distance in the storage space 11 is increased. There is a risk of injury by being caught in the space between the main body 10 and the storage box.

  In addition, if the speed at which the storage box is received in the storage space 11 is increased, there is a risk that impact and noise may be generated in the process in which the storage box is received in the storage space 11. is there.

  In addition, since the rail assembly 20 is provided on both side surfaces of the storage space 11, the storage box is substantially supported by the rail assembly 20 on both sides. Therefore, the bottom part of the storage box can be hung down by the food received in the storage box. In particular, the largest moment is applied to the center portion of the bottom of the storage box in the front-rear direction due to the food received in the storage box. Therefore, when the bottom of the storage box contacts the bottom surface of the storage space 11, there is a disadvantage that the storage box is not easily put in and out due to the frictional force therebetween.

  As described above, the present invention is for solving the conventional problems, and an object of the present invention is to provide a rail assembly for a refrigerator that can be used more safely and a storage box for a refrigerator including the same. To provide an apparatus.

  Another object of the present invention is to provide a refrigerator rail assembly configured to prevent impact and noise generated during the process of the storage box entering and exiting the storage space, and a refrigerator storage box access device including the same. There is to do.

  Still another object of the present invention is to provide a refrigerator rail assembly configured to minimize friction between the storage box and the storage space, and a refrigerator storage box access device including the same.

  The refrigerator rail assembly of the present invention is a refrigerator rail assembly for guiding a storage box that enters and exits the inside and outside of the refrigerator storage space. A guide rail having a long guide channel provided in the longitudinal direction, and a guide channel having a long opening in the longitudinal direction facing the guide channel of the guide rail, the guide box being detachably mounted. A rail, an intermediate rail provided with a pair of guide flanges each inserted into the guide channel, and a plurality of ball bearings provided between the guide channel and the guide flange, The guide rail and the moving rail move relative to the intermediate rail, so that the storage Box is characterized in that it is and from the inside and outside of the storage space.

  The refrigerator storage box access device according to the present invention is a storage box provided so as to be able to enter and exit inside and outside the storage space of the refrigerator, and any one of claims 1 to 3 for guiding the access of the storage box. And a coupling device that detachably couples the storage box and the rail assembly.

  As described above, according to the refrigerator rail assembly and the refrigerator storage box access device including the same according to the present invention configured as described in detail, the following effects can be obtained.

  First, according to the present invention, even if an external force in a direction in which the storage box is received in the storage space acts on the rail assembly, the speed at which the storage box is received in the storage space by a damping action is increased. Adjusted. Accordingly, the product can be used more safely by preventing the user from being injured during the process of receiving the storage box at an excessively high speed in the storage space.

  In addition, as described above, the speed at which the storage box is received in the storage space is adjusted, so that the impact and noise generated in the process of moving the storage box in and out of the storage space are reduced. Is prevented. Therefore, the usability and durability of the product can be improved.

  In the present invention, a rail assembly is provided on the bottom surface of the storage space. Accordingly, by minimizing the friction between the bottom of the storage box and the bottom surface of the storage space, the user can more easily enter and leave the storage box inside and outside the storage space.

  According to the present invention, there is an advantage that the safety and usability of the product can be improved.

  Hereinafter, a preferred embodiment of a refrigerator rail assembly and a refrigerator storage box access device including the same according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing a preferred embodiment of a storage box access device for a refrigerator according to the present invention, and FIG. 2 is a perspective view showing a state in which the storage box is received inside a storage space according to the preferred embodiment of the present invention. It is.

  As shown, the guide rail 32 constituting the rail assembly 30 according to the present invention is formed long in the longitudinal direction. The guide rails 32 are long on the both sides of the storage space provided in the main body of the refrigerator. At this time, the guide rail 32 is provided so that the right end portion in FIG. 1 faces the front of the storage space in FIG.

  In order to fix the guide rail 32 to both side surfaces of the storage space, the guide rail 32 is provided with fastening ribs 33 that are in close contact with both sides of the storage space. The fastening rib 33 has a plurality of through holes 33a through which fasteners fastened to both side surfaces of the storage space pass. The number of through holes 33a should be determined by the length and weight of the rail assembly 30.

  Meanwhile, a damping unit (self-damping unit) 34 is provided at the rear stage of the guide rail 32. The self-dumping unit 34 substantially reduces the moving speed of a moving rail 46, which will be described below, using air pressure or hydraulic pressure, thereby substantially receiving the speed of the storage box that enters and exits the storage space. It plays a role to decrease. For this purpose, a damping fluid such as gas or liquid is provided in the cylinder 36 of the self-damping unit 34. Such a damping fluid prevents the piston from moving backward in the storage space by the elastic force of a spring, which will be described below, thereby substantially increasing the speed at which the storage box is received in the storage space. Decelerate.

  The cylinder is provided with a piston (not shown). The piston linearly moves in the moving direction of the moving rail 46 with respect to the guide rail 32, that is, in the front-rear direction of the storage space. A spring (not shown) is provided in the cylinder 36. Both ends of the spring are fixed to one side of the cylinder 36 and the piston, respectively. The spring provides the piston with an elastic force in a direction in which the storage box is received in the storage space, that is, in the rear of the storage space. That is, the piston is given an elastic force to the rear of the storage space by the spring, and the movement due to this is disturbed by the damping fluid.

  A load 37 is connected to the piston. The load 37 has a predetermined length, and the other end extends to the outside of the cylinder 36 with one end connected to the piston. It goes without saying that the load 37 can be eliminated by configuring the piston so that one end of the piston extends outside the cylinder 36. An interlocking cam 38 is coupled to the other end of the load 37 extending outside the cylinder 36.

  The interlock cam 38 is preferably formed of a material having a predetermined elasticity so as to be elastically deformable with respect to the load 37. For example, the interlock cam 38 can be formed of a synthetic resin material having a predetermined elasticity.

  The interlocking cam 38 is provided with a storage interlocking protrusion 38a. The storage interlocking protrusion 38a protrudes upward from the one side of the load 37 by a predetermined height. The interlocking cam 38 is provided with a drawer interlocking protrusion 38b. The drawer interlocking protrusion 38b protrudes upward by a predetermined height from the storage interlocking protrusion 38a by a predetermined distance in front of the storage space, that is, at a position separated to the right in FIG. A guide protrusion 38 c is provided on one side of the interlock cam 38. The guide protrusion 38c protrudes horizontally from one side of the interlocking cam 38 by a predetermined length.

  A guide rib 40 is provided on one side of the guide rail 32. The guide rib 40 is for guiding the movement of the load 37 and the interlocking cam 38. The guide rib 40 includes a first guide slot 40a and a second guide slot 40b. The first guide slot 40a is provided on the upper surface of the guide rib 40 to guide the movement of the storage interlocking protrusion 38a and the drawer interlocking protrusion 38b. The second guide slot 40 b is provided on one side of the guide rib 40. The second guide slot 40b is formed in a substantially “clawed hand” shape in which the right end extends downward in FIG. 1 toward the front of the storage space. The second guide slot 40b guides the movement of the guide protrusion 38c, and the moving rail 46 moves a predetermined distance in front of the storage space so that the load 37 and the interlocking cam 38 are in front of the storage space. It functions to prevent the load 37 and the interlocking cam 38 from moving to the rear of the storage space by the elastic force of the spring in a state where it has moved by a predetermined distance. For this reason, the guide protrusion 38c moves along the second guide slot 40b and is then locked to the front portion of the second guide slot 40b. At this time, the interlock cam 38 is elastically deformed downward with respect to the load 37.

  The guide rail 32 is provided with an intermediate rail 44 constituting the rail assembly 30. The intermediate rail 44 is movably provided along the guide rail 32. The intermediate rail 44 is provided with a moving rail 46 that constitutes the rail assembly 30. The moving rail 46 is provided to be movable along the intermediate rail 44. The moving rail 46 is connected to a door that selectively opens and closes the storage space. Therefore, if the door shields the storage space, the intermediate rail 44 and the moving rail 46 move to the front and rear of the storage space along the guide rail 32 and the intermediate rail 44, respectively. Although not shown, a plurality of ball bearings may be provided between the guide rail 32 and the intermediate rail 44 and between the intermediate rail 44 and the moving rail 46.

  A locking hook 50 is provided at the rear stage of the moving rail 46. The locking hook 50 is a portion where one side of the rear stage of the storage box is locked. Accordingly, when the intermediate rail 44 and the moving rail 46 move to the front and rear of the storage space in conjunction with the operation of opening and closing the storage space of the door, the storage box is moved in and out of the storage space. .

  An interlocking member 48 is provided on one side of the moving rail 46. The interlocking member 48 is interlocked with the movement of the moving rail 46 so that the interlocking cam 38 and the load 37 and piston connected thereto overcome the elastic force of the spring and move to the front and rear of the storage space. It is for making.

  The interlocking member 48 is provided with a storage interlocking part 48a. When the storage interlocking portion 48a is selectively brought into close contact with the storage interlocking protrusion 38a and the moving rail 46 moves to the rear of the storage space, the guide protrusion 38c is locked to the front portion of the second guide slot 40b. It is made to escape with being done.

  The interlocking member 48 is provided with a drawer interlocking portion 48b. The drawer interlocking portion 48b is a portion where the drawer interlocking projection 38b is selectively seated. That is, in the process in which the guide protrusion 38c moves along the second guide slot 40b, the drawer interlocking protrusion 38b is seated on the drawer interlocking part 48b. When the guide protrusion 38c moving along the second guide slot 40b is locked to the front step portion of the second guide slot 40b, the drawer interlocking protrusion 38b is removed while being seated on the drawer interlocking part 48b. To do.

  Hereinafter, the operation of the preferred embodiment of the refrigerator storage box access device according to the present invention configured as described above will be described with reference to the accompanying drawings.

  First, the assembly and installation process of a preferred embodiment of the refrigerator storage box access device according to the present invention will be described.

  In a state where the intermediate rail 44 is movably coupled to the guide rail 32, the movable rail 46 is movably coupled to the intermediate rail 44. When the self-damping unit 34 is fixed to the rear stage of the guide rail 32, the assembly of the rail assembly 30 is completed.

  The rail assembly 30 thus assembled is fixed to both side surfaces of the storage space. That is, by fastening fasteners that penetrate through the through holes 33a of the fastening rib 33 in a state in which one surface of the fastening rib 33 of the guide rail 32 is in close contact with both side surfaces of the storage space, The rail assembly 30 is fixed. Then, the rail assembly 30 is installed by connecting the moving rail 46 to the back surface of the door and locking the rear stage of the storage container to the locking hook 50 of the moving rail 46.

  Next, a description will be given of an operation in which the storage box is moved in and out of the storage space according to a preferred embodiment of the refrigerator storage box access device according to the present invention.

  FIG. 3 is an operational state diagram illustrating an operation of the storage box being pulled out of the storage space according to a preferred embodiment of the present invention, and FIG. It is an operation state diagram which shows the operation | movement performed.

  As shown in FIG. 3, in a state where the storage box is completely received in the storage space, that is, in a state as shown in FIG. 3A, the storage interlocking protrusion 38a of the interlocking cam 38 and the drawer interlocking protrusion Each of 38b is brought into close contact with the storage interlocking portion 48a of the interlocking member 48 or received in the drawer interlocking portion 48b. The guide protrusion 38 c of the interlock cam 38 is positioned at the rear stage of the second guide slot 40 b of the guide rib 40. At this time, the interlock cam 38 is in a state of being given an elastic force from the spring to the rear of the storage space by the load 37.

  In this state, when the user pulls the door forward to open the storage space, the moving rail 46 and the intermediate rail 44 move along the guide rail 32 to the front of the storage space. Accordingly, the storage box starts to be pulled out of the storage space. Accordingly, the interlock cam 38 moves to the front of the storage space along the first guide slot 40a of the guide rib 40 while overcoming the elastic force of the spring in conjunction with the movement of the moving rail 46 and the intermediate rail 44. Thus, the state B shown in FIG. At this time, the guide protrusion 38c moves to the front of the storage space along the second guide slot 40b.

  When the user continuously pulls the door forward, the moving rail 46 and the intermediate rail 44 are moved along the guide rail 32 to the front of the storage space. Therefore, if the interlock cam 38 is also moved continuously along the first guide slot 40a in front of the storage space in conjunction with the movement of the moving rail 46 and the intermediate rail 44, the C of FIG. It will be in such a state. At this time, the guide protrusion 38c moves along the second guide slot 40b and then moves downward along the front portion of the second guide slot 40b to be locked there. At the same time, the drawer interlocking projection 38b is removed while being seated on the drawer interlocking part 48b. Therefore, even if the moving rail 46 and the intermediate rail 44 continue to move forward in the storage space along the guide rail 32, the fixing cam 38 no longer moves along the first guide slot 40a in the storage space. It will not move forward. In addition, since the guide protrusion 38c is locked in the second guide slot 40b, the interlock cam 38 does not move to the rear of the storage space even when the elastic force of the spring is applied.

  On the other hand, if the door is continuously pulled forward, the storage space is completely opened by the door. Therefore, the storage box is completely pulled out of the storage space. The moving rail 46 and the intermediate rail 44 move along the guide rail 32 to the front of the storage space, and the moving rail 46 moves along the intermediate rail 44 to the front of the storage space. To do.

  In order to store the storage box completely drawn out of the storage space in the storage space, a user pushes the door backward in a pull-out manner. Accordingly, the moving rail 46 moves along the intermediate rail 44 to the rear of the storage space.

  If the user continues to push the door backward, the moving rail 46 moves completely along the intermediate rail 44 to the rear of the storage space. In this state, the moving rail 46 and the intermediate rail 44 move along the guide rail 32 to the rear of the storage space.

  Further, when the moving rail 46 and the intermediate rail 44 move, the interlocking member 48 also moves to the rear of the storage space. Accordingly, when the moving rail 46 and the intermediate rail 44 are received within the storage space by a predetermined distance in a state where the storage box is completely pulled out of the storage space, the D shown in FIG. In this state, the storage interlocking portion 48a comes into close contact with the storage interlocking protrusion 38a.

  When the user pushes the door continuously backward, the moving rail 46 and the intermediate rail 44 move to the rear of the storage space along the guide rail 32, and the interlocking member 48 also moves to the storage space. Move backwards. Accordingly, the interlocking cam 38 moves to the rear of the storage space when the storage interlocking protrusion 38a is pushed in a state of being in close contact with the storage interlocking part 48a. At the same time, the guide projection 38c is removed while being locked to the front stage portion of the second guide slot 40b, and the drawer interlocking projection 38b is seated on the drawer interlocking portion 48b.

  However, the spring force acting toward the rear of the storage space acts on the interlocking cam 38. Therefore, even if the interlocking member 48 does not move rearward of the storage space due to the movement of the moving rail 46 and the intermediate rail 44, that is, the user does not push the door backward, the interlocking cam 38 and The interlocking member 48 moves to the rear of the storage space to be in the state E shown in FIG. Accordingly, the movement rail 46 and the intermediate rail 44 move along the guide rail 32 to the rear of the storage space by the movement of the interlocking member 48. Further, the storage box is received in the storage space continuously by the movement of the moving rail 46 and the intermediate rail 44, and the storage space is shielded by moving the door rearward.

  On the other hand, if the interlock cam 38 moves to the rear of the storage space, the load 37 and the piston connected thereto also move to the rear of the storage space. However, since the damping fluid is provided inside the cylinder 36, the backward movement of the piston in the storage space is disturbed by the damping fluid. Accordingly, the speed at which the interlock cam 38 moves to the rear of the storage space is reduced by the elastic force of the spring, so that the speed at which the storage box is received inside the storage space is substantially reduced. .

  Hereinafter, another embodiment of the refrigerator rail assembly and the refrigerator storage box access device including the same according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 5 is an exploded perspective view showing another embodiment of the refrigerator storage box access device according to the present invention, and FIG. 6 shows a state in which the storage box is received in the storage space according to another embodiment of the present invention. FIG. 7 is a longitudinal sectional view schematically showing a main part in a combined state according to another embodiment of the present invention.

  As illustrated, in this embodiment, the rail assembly 130 is provided on the bottom surface of the storage space 110 provided in the main body of the refrigerator. That is, in the preferred embodiment of the present invention shown in FIGS. 1 to 4, in contrast to the rail assemblies 30 that are long on the front and rear sides of the storage space, in the present embodiment, the rail assembly 130 is provided. The storage space 110 is provided long on the front and rear in the bottom surface. Therefore, in the present embodiment, the storage box 152 that goes in and out of the storage space 110 can be guided by one rail assembly 130. However, the specific configuration of the rail assembly 130 constituting this embodiment is the same as the preferred embodiment of the present invention shown in FIGS.

  That is, the rail assembly 130 includes a guide rail 132, an intermediate rail 144, a moving rail 146, and a damping device 134. In addition, the guide rail 132 is fastened with a through hole 133a through which a screw (S) fastened to a fastening hole 110a formed on the bottom surface of the storage space 110 is fixed to the bottom surface of the storage space 110. Ribs 133 are provided.

  The damping device 134 includes a cylinder 136, a damping fluid, a piston, a spring, a load 137, and an interlocking cam 138. The interlock cam 138 includes a storage interlock protrusion 138a, a drawer interlock protrusion 138b, and a guide protrusion 138c.

  The guide rail 132 is provided with a guide rib 140 for guiding the movement of the interlock cam 138 and the load 137. The guide rib 140 guides the movement of the interlocking cam 138 and load 137, the storage interlocking protrusion 138a and the drawer interlocking protrusion 138b, and the movement of the guide protrusion 138c, and locks it. A second guide slot 140b is provided.

  The moving rail 146 is provided with an interlocking member 148. The interlocking member 148 includes the storage interlocking portion 148a to which the storage interlocking protrusion 138a is in close contact, and the drawer interlocking portion 148b to which the drawer interlocking protrusion 138b is seated.

  As shown in FIG. 7, a plurality of ball bearings (B) are provided between the guide rail 132 and the intermediate rail 144 and between the intermediate rail 144 and the moving rail 146, respectively. The ball bearing (B) is for reducing a frictional force between the guide rail 132 and the intermediate rail 144 and between the intermediate rail 144 and the moving rail 146.

  However, the structure for fixing the moving rail 146 and the storage box 152 is different from the preferred embodiment of the present invention shown in FIGS. That is, a pair of mounting bosses 150 are provided on the upper surface of the moving rail 146. The mounting boz 150 protrudes by a predetermined height on the upper surface of the moving rail 146. A mounting channel 156 is provided at the bottom of the storage box 152. The mounting channel 156 is formed by recessing the center of the bottom of the storage box 152 in the front-rear direction. The rail assembly 130 is inserted into the mounting channel 156. The height of the mounting channel 156 is determined in a range in which the bottom of the storage box 152 and the bottom of the storage space 110 are separated by a predetermined distance with the rail assembly 130 inserted. In addition, a pair of mounting grooves 156 a are formed at the bottom of the storage box 152 corresponding to the inner surface of the mounting channel 156. With the rail assembly 130 inserted into the mounting channel 156, the mounting grooves 150 are inserted into the mounting grooves 156a.

  In this embodiment, the storage box 152 is supported by the rail assembly 130 inserted into the mounting channel 156 in a state where the bottom of the storage box 152 is separated from the bottom surface of the storage space 110 by a predetermined distance. Accordingly, the bottom of the storage box 152 is dropped by the load acting on the food received in the storage space 154 provided in the storage box 152, so that the bottom of the storage box 152 and the bottom of the storage space 110 are in contact with each other. This can prevent the phenomenon.

  In the present embodiment, a guide channel 132 </ b> C is provided inside the guide rail 132. The guide channel 132C of the guide rail 132 is formed long in the longitudinal direction of the guide rail 132 so as to have a rectangular cross section in which a part of its upper surface is opened.

  A guide channel 146C is also provided in the moving rail 146. The guide channel 146C of the moving rail 146 is formed long in the longitudinal direction of the moving rail 146 so as to have a rectangular cross section in which a part of the bottom surface is opened. That is, the guide channel 132C of the guide rail 132 and the guide channel 146C of the moving rail 146 are partially opened.

  Meanwhile, the intermediate rail 144 is formed to be long in the longitudinal direction, and the upper and lower stages thereof are positioned so as to be inserted into the guide channel 132C of the guide rail 132 and the guide channel 146C of the moving rail 146, respectively. At this time, the upper and lower stages of the intermediate rail 144 are separated from the bottom surface of the guide channel 132C of the guide rail 132 and the ceiling surface of the guide channel 146C of the moving rail 146 by a predetermined distance.

  The intermediate rail 144 includes a pair of guide flanges 144F. The guide flanges 144F of the intermediate rail 144 extend so as to be orthogonal to the intermediate rail 144 at positions spaced apart from each other by a predetermined distance upward or downward from the upper and lower stages of the intermediate rail 144, respectively. Accordingly, the lower surface or the upper surface of the guide flange 144F of the intermediate rail 144 is separated from the bottom surface of the guide channel 132C of the guide rail 132 or the ceiling surface of the guide channel 146C of the moving rail 146 by a predetermined distance.

  A partition rib 144R is provided on the bottom or top surface of the guide flange 144F of the intermediate rail 144, respectively. The partition ribs 144R of the intermediate rail 144 protrude downward or upward from the lower surface or upper surface of the guide flange 144F of the intermediate rail 144 corresponding to the upper and lower stages of the intermediate rail 144, respectively. At this time, it is preferable that the leading ends of the separation ribs 144R of the intermediate rail 144 are separated from the bottom surface of the guide channel 132C of the guide rail 132 or the ceiling surface of the guide channel 146C of the moving rail 146 by a predetermined distance. In the present embodiment, it has been described that the separation rib 144R of the intermediate rail 144 protrudes from the bottom surface or the upper surface of the guide flange 144F of the intermediate rail 144, but the guide flange 144F of the intermediate rail 144 substantially extends from the intermediate rail 144. By being provided at a position separated from the upper and lower stages of the rail 144 by a predetermined distance, a part thereof adjacent to the upper and lower stages of the intermediate rail 144 forms a separating rib 144R of the intermediate rail 144.

  The guide channel 132C of the guide rail 132 and the guide flange 144F of the intermediate rail 144 are positioned between any one of the bottom surfaces, and the guide channel 146C of the movable rail 146 has a ceiling surface of the guide rail 146 and the guide of the intermediate rail 144. A plurality of the ball bearings (B) are provided between the other upper surfaces of the flanges 144F. At this time, the ball bearing (B) is separated by the separation rib 144R of the intermediate rail 144, and is orthogonal to the movement direction of the guide rail 132 and the movement rail 146 with respect to the intermediate rail 144, that is, in FIG. It is prevented from moving left and right in the drawing.

  In addition, between the upper surface of the ceiling surface adjacent to the opened portion of the guide channel 132C of the guide rail 132 and the guide flange 144F of the intermediate rail 144 and the opening of the guide channel 146C of the moving rail 146. A plurality of ball bearings (B) are also provided between the bottom surface adjacent to the formed portion and the other one of the guide flanges 144F of the intermediate rail 144. At this time, the ball bearing (B) is substantially prevented from moving left and right in the drawing in FIG. 7 by the intermediate rail 144.

  The right of the present invention is not limited to the above-described embodiment, but is defined by what is described in the claims, and various modifications within the scope of the right described by the person having ordinary knowledge in the field of the present invention can be made. It is obvious that it can be adapted.

  In the above-described embodiment, the damping device is provided with the spring to apply an elastic force to the piston, the load, and the interlocking cam. However, the configuration is not limited to the spring, and any other configuration is applicable as long as it is an elastic member having a predetermined elasticity.

It is a perspective view which shows preferable embodiment of the storage box access device for refrigerators by this invention. FIG. 6 is a perspective view illustrating a state in which a storage box is received in a storage space according to a preferred embodiment of the present invention. FIG. 6 is an operation state diagram illustrating an operation of a storage box being pulled out of a storage space according to a preferred embodiment of the present invention. FIG. 6 is an operation state diagram illustrating an operation in which a storage box is received in a storage space according to a preferred embodiment of the present invention. It is a disassembled perspective view which shows other embodiment of the storage box input / output device for refrigerators by this invention. In other embodiment by this invention, it is a perspective view which shows the state in which the storage box was received inside the storage space. It is a longitudinal cross-sectional view which shows schematically the principal part of the combined state of other embodiment by this invention. It is a perspective view which shows the inside of the refrigerator provided with the storage box access device for refrigerators by a prior art.

Explanation of symbols

10 Refrigerator body 11, 110 Storage space 20, 30, 130 Rail assembly 21, 32, 132 Guide rail 23, 44, 144 Intermediate rail 25, 46, 146 Moving rail 33 Fastening rib 34 Self damping unit 36, 136 Cylinder 37, 137 Load 38, 138 Interlocking cam 40, 140 Guide rib 50 Locking hook 150 Boz

Claims (26)

A rail assembly for a refrigerator for guiding a storage box that goes in and out of the refrigerator storage space,
A guide rail that is long on the one side of the storage space in the front-rear direction, and a guide channel that is open on one side is long in the longitudinal direction;
A guide channel having a long opening in the longitudinal direction and having a guide channel facing the guide channel of the guide rail, and a moving rail on which the storage box is detachably mounted,
An intermediate rail provided with a pair of guide flanges each inserted into the guide channel; and
A plurality of ball bearings provided between the guide channel and the guide flange,
The refrigerator rail assembly, wherein the storage box is moved in and out of the storage space by moving the guide rail and the moving rail with respect to the intermediate rail. Each of the guide channels is formed to have a polyhedral-shaped cross section in which at least a part of one surface thereof is opened,
Each of the guide flanges is formed so as to be located inside the guide channel so that one surface thereof is separated from the inner surface of the opposing guide channel by a predetermined distance,
The rail assembly for a refrigerator according to claim 1, wherein the ball bearing is located between an inner surface of the guide channel and one surface of the guide flange facing each other.   One surface of the guide flange facing the inner surface of the guide channel is formed long in the longitudinal direction of the guide flange, and is a partition for preventing the ball bearing from flowing in a direction perpendicular to the longitudinal direction of the intermediate rail. 3. The refrigerator rail assembly according to claim 2, further comprising a rib. The intermediate rail is formed long in the longitudinal direction so that both ends in the width direction are located inside the guide channel so as to be separated from the inner surface of the guide channel by a predetermined distance,
The guide flange is provided at a position separated by a predetermined distance from both ends in the width direction of the intermediate rail,
3. The rail assembly for a refrigerator according to claim 2, wherein the ball bearing is prevented from flowing in a direction orthogonal to the longitudinal direction of the intermediate rail by both ends of the intermediate rail in the width direction.   The refrigerator rail assembly according to any one of claims 1 to 4, wherein the fixed rails are provided on both side surfaces of the storage space.   The rail assembly for a refrigerator according to any one of claims 1 to 4, wherein the fixed rail is provided on a bottom surface of the storage space.   The rail assembly for a refrigerator according to any one of claims 1 to 4, further comprising a damping device that provides a damping force for controlling a moving speed of the moving rail with respect to the guide rail. The damping device is
A damping unit for providing a damping force for reducing a moving speed of the moving rail with respect to the guide rail in a direction in which the storage box is received in the storage space;
The storage box is configured to include a coupling unit that selectively couples the moving rail and the damping unit according to a moving distance of the moving rail with respect to the guide rail in a direction in which the storage box is pulled out of the storage space. The refrigerator rail assembly according to claim 7. The damping unit is
A piston provided to be movable in a moving direction of the moving rail with respect to the guide rail;
9. The refrigerator rail assembly according to claim 8, further comprising a damping fluid that prevents movement of the piston in a direction in which the storage box is received in the storage space. The damping member is
The rail assembly for a refrigerator according to claim 9, further comprising an elastic member that applies an elastic force to the piston in a direction in which the storage box is received in the storage space. The coupling means includes
An interlocking cam coupled to the piston;
A guide member provided on the guide rail and provided with a first guide slot for guiding the movement of the interlock cam; and
The interlocking cam is selectively coupled and interlocked according to a travel distance of the movable rail with respect to the guide rail in a direction in which the storage box is pulled out to the outside of the storage space. An interlocking member;
The rail assembly for a refrigerator according to claim 10, comprising: When the moving rail moves with respect to the guide rail in a direction in which the storage box is received in the storage space, a storage interlocking protrusion provided in the interlocking cam becomes a storage interlocking part provided in the interlocking member. By closely contacting, the interlocking cam and the interlocking member are combined,
When the moving rail moves with respect to the guide rail in a direction in which the storage box is pulled out of the storage space, a drawer interlocking projection provided on the interlocking cam is secured to a drawer interlocking part provided on the interlocking member. By wearing, the interlocking cam and the interlocking member are combined,
When the moving rail moves a predetermined distance with respect to the guide rail in a direction in which the storage box is pulled out of the storage space, a guide protrusion provided on the interlocking cam is provided on the guide member. 11. The movable cam is moved along a guide slot so that the interlock cam is elastically deformed with respect to the piston, and the pull-out interlocking protrusion is removed while being seated on the pull-out interlocking portion. Rail assembly for refrigerators. A storage box provided inside and outside of the refrigerator storage space;
The rail assembly according to any one of claims 1 to 4, which guides the entry and exit of the storage box, and
A coupling device for detachably coupling the storage box and the rail assembly;
The refrigerator storage box access device characterized by including.   14. The refrigerator storage box access device according to claim 13, wherein fixed rails constituting the rail assembly are respectively provided on both side surfaces of the storage space.   15. The refrigerator according to claim 14, wherein the coupling device is a locking hook provided on one side of a guide rail constituting the rail assembly and selectively locked on one side of the storage box. Storage box access device.   The refrigerator storage box access device according to claim 15, further comprising a door that is connected to one end of the guide rail and selectively opens and closes the storage space in a pull-out manner.   The refrigerator storage box access device according to claim 13, wherein the fixed rail constituting the rail assembly is provided on a bottom surface of the storage space. The coupling device comprises:
A mounting groove provided in any one of the bottom of the storage box and the guide rail constituting the rail assembly,
18. The refrigerator storage box loading / unloading device according to claim 17, further comprising a mounting buzz provided on the other of the bottom of the storage box and the guide rail and coupled to the mounting groove.   18. The refrigerator storage box loading / unloading device according to claim 17, further comprising a mounting channel formed at a bottom portion of the storage box so that a part thereof is recessed upward and into which the guide rail is inserted. .   The refrigerator storage box access device according to claim 19, further comprising a door that is connected to one end of the guide rail and selectively opens and closes the storage space in a pull-out manner.   The refrigerator storage box access device according to claim 13, wherein the rail assembly further includes a damping device that provides a damping force for controlling a moving speed of the moving rail with respect to the guide rail. The damping device is
A damping unit for providing a damping force for reducing a moving speed of the moving rail with respect to the guide rail in a direction in which the storage box is received in the storage space;
The storage box is configured to include a coupling unit that selectively couples the moving rail and the damping unit according to a moving distance of the moving rail with respect to the guide rail in a direction in which the storage box is pulled out of the storage space. The refrigerator storage box access device according to claim 21. The damping unit is
A piston provided to be movable in a moving direction of the moving rail with respect to the guide rail;
23. The refrigerator storage box access device according to claim 22, further comprising a damping fluid that prevents movement of the piston in a direction in which the storage box is received in the storage space. The damping member is
24. The refrigerator storage box loading / unloading device according to claim 23, further comprising an elastic member for applying an elastic force to the piston in a direction in which the storage box is received in the storage space. The coupling means includes
An interlocking cam coupled to the piston;
A guide member provided on the guide rail and provided with a first guide slot for guiding the movement of the interlock cam; and
An interlock that is provided on one side of the moving rail and is selectively coupled to the interlocking cam according to a moving distance of the moving rail relative to the guide rail in a direction in which the storage box is pulled out of the storage space. 25. The refrigerator storage box access device according to claim 24, comprising a member. When the moving rail moves with respect to the guide rail in a direction in which the storage box is received in the storage space, a storage interlocking protrusion provided in the interlocking cam becomes a storage interlocking part provided in the interlocking member. By closely contacting, the interlocking cam and the interlocking member are combined,
When the moving rail moves with respect to the guide rail in a direction in which the storage box is pulled out of the storage space, a drawer interlocking projection provided on the interlocking cam is secured to a drawer interlocking part provided on the interlocking member. By wearing, the interlocking cam and the interlocking member are combined,
When the moving rail moves a predetermined distance with respect to the guide rail in a direction in which the storage box is pulled out of the storage space, a guide protrusion provided on the interlocking cam is provided on the guide member. 26. The movement along the guide slot causes the interlock cam to be elastically deformed with respect to the piston, and the pull-out interlock protrusion is removed in a state of being seated on the pull-out interlock portion. Storage box access device for the refrigerator.

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