JP4906809B2 - Slide hinge and storage device - Google Patents

Description

  The present invention relates to a slide hinge and a storage device using the slide hinge.

  In general, as described in Patent Document 1 below, a storage device such as a storage box is a housing whose front surface is open, a door that opens and closes the opening of the housing, and the door can be rotated by the housing. And a slide hinge coupled to the. The slide hinge has a housing side mounting member attached to the inner side surface of the housing, a connecting member detachably attached to the housing side mounting member, and a door side mounting member attached to the door. The connecting member and the door side mounting member are rotatably connected via the first and second links. Therefore, the door is rotatably supported by the housing via the slide hinge, and is rotatable between a closed position where the opening of the housing is closed and an open position where the opening is opened. .

JP 2004-124455 A

  In the slide hinge used in the conventional storage device, the lengths of the first link and the second link are different from each other. For this reason, the door is parallel to the front surface of the housing when it is in the closed position, but is inclined or orthogonal to the front surface of the housing when it is in the open position. That is, when the door is moved from the closed position to the open position, the door rotates so that the other end portion is directed forward with the one end portion on the slide hinge side as a center. Therefore, a large space that allows the door to rotate is required in front of the housing. In particular, when the length of the door in the left-right direction is long, a larger space is required. For this reason, when the space ahead of a housing | casing is narrow, there existed a problem that a door could not be opened enough.

In order to solve the above problems, a slide hinge according to the present invention includes a housing-side mounting member that is attached to the housing, a connecting member that is detachably attached to the housing-side mounting member, and a door-side mounting that is attached to the door. In a slide hinge comprising a member and first and second links each having a base end rotatably attached to the connecting member and each tip end rotatably attached to the door side attachment member, The connecting member, the door-side mounting member, the first link, and the second link constitute a parallel link mechanism.
In this case, the connecting member, the door-side mounting member, and the first link or the second link and a third link constituting a parallel link mechanism are further provided, and the rotation of the base end portion of the third link with respect to the connecting member It is desirable that the centers are arranged so as to form a triangle with the rotation center of the first and second links with respect to the connecting member. When comprised in this way, the support strength with respect to the door by a 1st, 2nd and 3rd link can be improved.
The first, second, and third links are bent at their intermediate portions, and the bent portions of the first, second, and third links are the rotation center of the respective proximal end portions and the rotation center of the distal end portion. It is desirable that they are positioned on the same side with respect to the straight line connecting When comprised in this way, when a door is moved to an open position, it can prevent that a 1st, 2nd and 3rd link interferes with a housing | casing. In other words, the door can be greatly opened to the extent that interference of the first, second and third links with the housing can be prevented.
The connecting member has a mounting plate portion to which a base end portion of the first to third links is rotatably mounted, and two links of the first to third links are one of the mounting plate portions. The other link is disposed on the other side of the mounting plate portion, one of the two links is disposed substantially in contact with the mounting plate portion, and the other link is In order not to interfere with the one link, it is desirable that the mounting plate portion is disposed so as to contact the spacer through a spacer having a thickness equal to or greater than the thickness of the one link. When configured in this way, it is possible to prevent the first, second and third links from interfering with each other when they rotate.
Between the housing side mounting member and the connecting member, a housing side adjusting mechanism for adjusting the posture of the connecting member around an axis parallel to the rotation center of the first to third links is provided, The door-side attachment member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the tip portions of the first to third links. The base portion and the support portion It is desirable that a door-side adjustment mechanism that adjusts the posture of the support portion about an axis parallel to the rotation center of the first to third links is provided between the first and third links. When configured in this manner, the posture of the door around the axis parallel to the rotation center of the first to third links can be adjusted by at least one of the housing side adjustment mechanism and the door side adjustment mechanism. . In particular, when the posture of the door is adjusted by the door-side adjustment mechanism, the posture of the door can be adjusted without taking out an article accommodated in the housing.
The housing side adjusting mechanism adjusts the posture of the connecting member by rotating one end of the connecting member to which the first to third links are connected around the other end of the connecting member. Is desirable. When comprised in this way, when a connection member rotates, not only the attitude | position of a door will change but the one end part of a connection member will move to the parallel movement direction of a door side attachment member. Therefore, when there is an error in the mounting position with respect to the parallel movement direction of the door, the error can be eliminated by rotating the connecting member. However, the door posture changes as soon as the error disappears. Thus, the change in the posture of the door can be adjusted by the door-side adjustment mechanism to return the door to the original correct posture.
Between the housing side mounting member and the connecting member, a housing side adjusting mechanism that adjusts the posture of the connecting member around an axis parallel to the rotation centers of the first and second links is provided. The door-side mounting member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the distal end portions of the first and second links. The base portion and the support portion It is desirable that a door-side adjustment mechanism for adjusting the posture of the support portion about an axis parallel to the rotation centers of the first and second links is provided between the first and second links. When configured in this way, the attitude of the door about the axis parallel to the rotation center of the first and second links can be adjusted by at least one of the housing side adjustment mechanism and the door side adjustment mechanism. . In particular, when the posture of the door is adjusted by the door-side adjustment mechanism, the posture of the door can be adjusted without taking out an article accommodated in the housing. Particularly in this case, the housing-side adjusting mechanism rotates the one end of the connecting member, to which the first and second links are connected, around the other end of the connecting member, thereby the connecting member. It is desirable to adjust the posture. When comprised in this way, when a connection member rotates, not only the attitude | position of a door will change but the one end part of a connection member will move to the parallel movement direction of a door side attachment member. Therefore, when there is an error in the mounting position with respect to the parallel movement direction of the door, the error can be eliminated by rotating the connecting member. However, the door posture changes as soon as the error disappears. Thus, the change in the posture of the door can be adjusted by the door-side adjustment mechanism to return the door to the original correct posture.
When the door-side mounting member moves in one direction relative to the housing-side mounting member and reaches a predetermined position, the first link is moved so that the door-side mounting member further moves in the one direction. It is desirable to further include rotation urging means for urging the rotation in one direction. When configured in this way, for example, when one direction is the door closing direction, the door is moved from the open position side to the closed position side, and when the door moves to a position a short distance from the closed position, The door can be moved to the closed position by the rotation biasing means.
The rotation urging means is connected to the first link such that one end thereof is rotatably connected to the door-side mounting member and the other end rotates around the one end as the first link rotates. An arm connected to be displaceable, a cam portion provided on the door-side mounting member, a movable member provided on the arm so as to be movable toward and away from the cam portion, and the movable member connected to the cam And the urging force of the urging member is converted into a rotation urging force that rotates the first link in the one direction by the movable member and the cam portion that abut against each other. Is desirable. In this case, the slide hinge can be reduced in size by arranging the arm in parallel with the first link and arranging the biasing member on the arm.
In order to solve the above-described problem, a storage device according to the present invention includes a housing having an opening, a door that opens and closes the opening of the housing, and the door is closed to the housing. A slide hinge that is movably connected between a closed position and an open position in which the opening is opened, and the slide hinge is attached to the inner surface of the housing, and the housing side mounting member A connecting member detachably attached to the door, and a door side attaching member attached to the back surface of the door, each base end portion is rotatably attached to the connecting member, and each distal end portion is the door side attaching member In the housing device having the first and second links that are rotatably attached to the housing, the connecting member, the door-side attaching member, the first link, and the second link constitute a parallel link mechanism. It is set to.
In this case, the connecting member, the door-side mounting member, and the first link or the second link and a third link constituting a parallel link mechanism are further provided, and the rotation of the base end portion of the third link with respect to the connecting member It is desirable that the centers are arranged so as to form a triangle with the rotation center of the first and second links with respect to the connecting member. When comprised in this way, when a door is moved to an open position, it can prevent that a 1st, 2nd and 3rd link interferes with a housing | casing. In other words, the door can be greatly opened to the extent that interference of the first, second and third links with the housing can be prevented.
One of the three parts of the connecting member to which the first to third links are rotatably connected is projected outward from the opening of the housing, and the door is closed on the back of the door. It is desirable to form a recess into which the part protruding from the opening of the connecting member enters when located at or near the position. In such a configuration, when the door is moved to the closed position, the first to third links enter the housing, but a part of the connecting member protrudes outside from the opening of the housing. The penetration depth of the first to third links into the housing can be reduced by that amount, and the space that can be used effectively in the housing can be expanded. In addition, since the protruding part of the connecting member enters the recess, it is possible to prevent the part from interfering with the door.
The first, second, and third links are bent at each intermediate portion, and the bent portions of the first, second, and third links are the rotation center of the respective base end portions and the rotation center of the distal end portions. It is desirable that they are positioned on the same side with respect to the straight line connecting When comprised in this way, when a door is moved to an open position, it can prevent that a 1st, 2nd and 3rd link interferes with a housing | casing. In other words, the door can be greatly opened to the extent that interference of the first, second and third links with the housing can be prevented.
The connecting member has a mounting plate portion to which a base end portion of the first to third links is rotatably mounted, and two links of the first to third links are one of the mounting plate portions. The other link is disposed on the other side of the mounting plate portion, one of the two links is disposed substantially in contact with the mounting plate portion, and the other link is In order not to interfere with the one link, it is desirable that the mounting plate portion is disposed so as to contact the spacer through a spacer having a thickness equal to or greater than the thickness of the one link. When configured in this way, it is possible to prevent the first, second and third links from interfering with each other when they rotate.
Between the housing side mounting member and the connecting member, a housing side adjusting mechanism for adjusting the posture of the connecting member around an axis parallel to the rotation center of the first to third links is provided, The door-side attachment member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the tip portions of the first to third links. The base portion and the support portion It is desirable that a door-side adjustment mechanism that adjusts the posture of the support portion about an axis parallel to the rotation center of the first to third links is provided between the first and third links. When configured in this manner, the posture of the door around the axis parallel to the rotation center of the first to third links can be adjusted by at least one of the housing side adjustment mechanism and the door side adjustment mechanism. . In particular, when the posture of the door is adjusted by the door-side adjustment mechanism, the posture of the door can be adjusted without taking out an article accommodated in the housing.
The housing side adjusting mechanism adjusts the posture of the connecting member by rotating one end of the connecting member to which the first to third links are connected around the other end of the connecting member. Is desirable. When comprised in this way, when a connection member rotates, not only the attitude | position of a door will change but the one end part of a connection member will move to the parallel movement direction of a door side attachment member. Therefore, when there is an error in the mounting position with respect to the parallel movement direction of the door, the error can be eliminated by rotating the connecting member. However, the door posture changes as soon as the error disappears. Thus, the change in the posture of the door can be adjusted by the door-side adjustment mechanism to return the door to the original correct posture.
Between the housing side mounting member and the connecting member, a housing side adjusting mechanism that adjusts the posture of the connecting member around an axis parallel to the rotation centers of the first and second links is provided. The door-side mounting member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the distal end portions of the first and second links. The base portion and the support portion It is desirable that a door-side adjustment mechanism for adjusting the posture of the support portion about an axis parallel to the rotation centers of the first and second links is provided between the first and second links. When configured in this way, the attitude of the door about the axis parallel to the rotation center of the first and second links can be adjusted by at least one of the housing side adjustment mechanism and the door side adjustment mechanism. . In particular, when the posture of the door is adjusted by the door-side adjustment mechanism, the posture of the door can be adjusted without taking out an article accommodated in the housing. Particularly in this case, the housing-side adjusting mechanism rotates the one end of the connecting member, to which the first and second links are connected, around the other end of the connecting member, thereby the connecting member. It is desirable to adjust the posture. When comprised in this way, when a connection member rotates, not only the attitude | position of a door will change but the one end part of a connection member will move to the parallel movement direction of a door side attachment member. Therefore, when there is an error in the mounting position with respect to the parallel movement direction of the door, the error can be eliminated by rotating the connecting member. However, the door posture changes as soon as the error disappears. Thus, the change in the posture of the door can be adjusted by the door-side adjustment mechanism to return the door to the original correct posture.
When the door-side mounting member moves in one direction relative to the housing-side mounting member and reaches a predetermined position, the first link is moved so that the door-side mounting member further moves in the one direction. It is desirable to further include rotation urging means for urging the rotation in one direction. When configured in this way, for example, when one direction is the door closing direction, the door is moved from the open position side to the closed position side, and when the door moves to a position a short distance from the closed position, The door can be moved to the closed position by the rotation biasing means.
The rotation urging means is connected to the first link such that one end thereof is rotatably connected to the door-side mounting member and the other end rotates around the one end as the first link rotates. An arm connected to be displaceable, a cam portion provided on the door-side mounting member, a movable member provided on the arm so as to be movable toward and away from the cam portion, and the movable member connected to the cam And the urging force of the urging member is converted into a rotation urging force that rotates the first link in the one direction by the movable member and the cam portion that abut against each other. Is desirable. In this case, the slide hinge can be reduced in size by arranging the arm in parallel with the first link and arranging the biasing member on the arm.

  According to the present invention having the above-described characteristic configuration, the connecting member, the door-side mounting member, the first link, and the second link constitute a parallel link, so that the door has the other end centered on one end on the slide hinge side. The part does not rotate so as to move forward, and translates between the closed position and the open position. Therefore, a large space for rotating the door is not required in front of the housing, and the door can be sufficiently opened and closed even when the space is small.

The best mode for carrying out the present invention will be described below with reference to the drawings.
1, 3 and 5 are perspective views showing the main part of the storage device according to the present invention. FIGS. 2, 4 and 6 are plan sectional views of the main part of the storage device. As shown in these drawings, the storage device 1 includes a housing 2, a door 3, and two upper and lower slide hinges 10.

  The housing 2 has a rectangular box shape, and an opening is formed on the front surface 2a thereof. The door 3 has a flat plate shape, and moves between a closed position shown in FIGS. 1 and 2 and an open position shown in FIGS. 5 and 6 through the upper and lower slide hinges 10 and 10 in the housing 2. Supported as possible. The closed position of the door 3 is determined by the rear surface 3 a of the door 3 abutting against the front surface 2 a of the housing 2. The open position of the door 3 is determined by the slide hinge 10 as will be described later.

  The slide hinge 10 includes a housing side unit 20, a door side unit 30, and first, second, and third links 41 provided between the housing side unit 20 and the door side unit (door side connecting member) 30, 42, 43.

  The housing side unit 20 has a substrate (housing side mounting member) 21 as particularly shown in FIGS. The substrate 21 is fixed to the inner surface of one of the left and right side walls of the housing 2 (in this embodiment, the left side wall as viewed from the front of the housing 2) 2b, and is disposed close to the opening. Yes. A height adjusting member 22 is attached to the substrate 21 so that the position can be adjusted in the vertical direction. The height adjusting member 22 has a substantially U-shaped cross section, and is attached with its longitudinal direction facing the front-rear direction and the open portion facing the substrate 21. A mounting member 23 is detachably provided on the height adjusting member 22. The mounting member 23 has a “U” cross section and is disposed so as to cover the height adjusting member 23. Engagement shafts 24 and 25 extending in the vertical direction are provided at front and rear ends of the mounting member 23. Then, the engaging shafts 24 and 25 are detachably engaged with engaging recesses 22a and 22b provided at both front and rear ends of the height adjusting member 22, respectively, so that the mounting member 23 is engaged with the height adjusting member. 22 is detachably attached.

  In order to remove the mounting member 23 from the height adjusting member 22, a disengagement member 26 is used. The disengagement member 26 is formed in a substantially “U” shape in plan view so as to surround both the upper and lower side portions and the rear end portion of the mounting member 23. The front end portion of the disengagement member 26 is rotatably attached to the front end portion of the mounting member 23 via an engagement shaft 24. A long hole 26 a is formed at the rear end of the disengagement member 26. The engagement shaft 25 is inserted into the long hole 26a so as to be movable in the longitudinal direction of the long hole 26a. The rear end portion of the disengagement member 26 is urged by the spring 27 from the rear end portion of the mounting member 23 toward the substrate 21 side. Due to the urging force of the spring 27, the engagement shafts 24 and 25 are engaged with the engagement recesses 22a and 22b, respectively. Accordingly, the mounting member 23 is attached to the height adjusting member 22. When removing the mounting member 23 from the height adjustment member 22, the rear end portion of the engagement release member 26 is moved in a direction away from the substrate 21 against the urging force of the spring 27, and the engagement shaft 24 is centered. The engaging member 26 is rotated as follows. Then, the engagement shaft 25 is detached from the engagement recess 22b. As a result, the mounting member 23 can be detached from the height adjusting member 22. Note that. The mounting member 23 engages the engagement shaft 24 with the engagement recess 22a, and rotates or engages the mounting member 23 around the engagement shaft 24 so that the rear end portion approaches the height adjustment member 22. The shaft 25 is engaged with the engaging recess 22b, and the mounting member 23 is attached to the height adjusting member 22 by rotating the mounting member 23 around the engaging shaft 25 so that the front end portion thereof approaches the height adjusting member 22. Can do.

  A connecting member 28 is attached to the mounting member 23. The connecting member 28 has a U-shaped cross section, and has a pair of side plate portions (mounting plate portions) 28a and 28b that are parallel to each other and face each other in the vertical direction. The connecting member 28 is disposed so as to accommodate the mounting member 23 and the engagement releasing member 26 therein. The rear end portion of the connecting member 28 can be adjusted in position in the front-rear direction (left-right direction in FIG. 17) with respect to the mounting member 23. After the position adjustment, the connecting member 28 penetrates the connecting member 28 and is screwed into the mounting member 23. It is fixed to the mounting member 23 by tightening the bolt B1. On the other hand, the position of the front end portion of the connecting member 28 can be adjusted in the left-right direction (vertical direction in FIG. 17) with respect to the mounting member 23, and the front end portion of the connecting member 28 has a bolt B2 whose longitudinal direction is directed in the left-right direction. Is inserted so as to be rotatable and immovable in the left-right direction. The bolt B <b> 2 is screwed into the screw hole 23 a of the mounting member 23. Therefore, when the bolt B2 is rotated in the forward and reverse directions, the front end portion of the connecting member 28 is rotated in the horizontal direction around the rear end portion (the rear end portion of the connecting member 28 located at the same position as the head of the bolt B1). To do. Then, the front end portion of the connecting member 28 moves in the left-right direction according to the amount of rotation. In this case, when the bolt B2 is rotated in one direction, the front end portion of the connecting member 28 moves in a direction away from the mounting member 23 (upward in FIG. 16), and when the bolt B2 is rotated in the other direction, the connecting member 28 is moved. The front end portion of the lens moves in the direction approaching the mounting member 23 (downward in FIG. 16) about the rear end portion. As is apparent from this, a housing side adjusting mechanism that rotates the front end portion of the connecting member 28 around the rear end portion is constituted by the bolt B2 and the screw hole 23a.

  Since the connecting member 28 is attached to the mounting member 23, the mounting member 23 is attached to the height adjusting member 22, and the height adjusting member 22 is further attached to the substrate 21, the connecting member 28 is attached to the substrate 21. The position can be adjusted in the vertical direction and the front-back direction. Further, the position of the front end portion of the connecting member 28 can be adjusted in the left-right direction. Such a configuration is known, for example, as described in JP-A-10-238199. Therefore, further detailed description will be omitted.

  The door unit 30 includes a base 31 and a support 32 as shown in FIGS. 14 and 19 to 23. The base 31 has a flat plate portion 31a. The flat plate portion 31 a is fixed to an intermediate portion in the left-right direction of the back surface 2 a of the door 2. A pair of protruding plate portions 31b and 31b (only one protruding plate portion 31b is shown) is formed on the flat plate portion 31a. The pair of projecting plate portions 31b have a right angle with the back surface 2a, and project toward the housing 2, that is, toward the rear. In addition, the pair of protruding plate portions 31b are arranged to face each other in the vertical direction.

  The support part 32 has a flat plate part 32a. The flat plate portion 32a is spaced from the flat plate portion 31a of the base portion 31 by a predetermined distance, for example, about 2 to several mm, on the side of the housing 2, and is disposed to face the flat plate portion 31a in the front-rear direction. . A pair of cam plate portions 32b and 32b (only one cam plate portion 32b is shown) is formed on the flat plate portion 32a. The pair of cam plate portions 32b and 32b are formed to bend at right angles from the flat plate portion 32a toward the housing 2 and face each other vertically. The pair of cam plate portions 32b and 32b are inserted between the protruding plate portions 31b and 31b with their outer surfaces substantially in contact with the inner surfaces (opposing surfaces) of the pair of protruding plate portions 31b and 31b. The cam plate portions 32b and 32b are coupled to the projecting plate portions 31b and 31b so as to be rotatable in the horizontal direction by a shaft 63 penetrating the projecting plate portions 31b and 31b and the cam plate portions 32b and 32b vertically.

  A screw hole 32c is formed at one end of the flat plate portion 32a in the left-right direction. An adjusting screw 33 is threadedly engaged with the screw hole 32c. One end portion of the adjustment screw 33 penetrating the screw hole 32c is connected to the flat plate portion 31a of the base portion 31 so as to be rotatable and immovable in the longitudinal direction (front-rear direction) of the adjustment screw 33. Therefore, when the adjusting screw 33 is rotated in the forward / reverse direction, the support portion 32 rotates with respect to the base portion 31 in the horizontal direction around the shaft 63. Thereby, the attitude | position with respect to the base 31 of the support part 32 can be changed (refer FIG.19 and FIG.20). As will be described later, the base 31 actually changes its attitude with respect to the support 32. As is clear from this, a door-side adjusting mechanism is constituted by the adjusting screw 33 and the screw hole 32c. A nut (not shown) is screwed to the other end of the adjustment screw 33. After the adjustment of the posture of the support portion 32 is completed, the nut is tightened to fix the adjustment screw 33 to the flat plate portion 32a. Accordingly, it is desirable to fix the support portion 32 to the base portion 31.

  The flat plate portion 32a is formed with a pair of substantially semicircular arc portions 32d. The pair of arc portions 32d are arranged to face each other in the vertical direction. In addition, one arc portion 32d is disposed above the upper cam plate portion 32b by a predetermined distance, and the other arc portion 32d is lower than the lower cam plate portion 32b by a predetermined distance. Has been placed. As apparent from FIGS. 19 and 20, the inner diameter of the arc portion 32d is larger than the outer diameter of the cam plate portion 32b.

  The connecting member 28 and the support portion 32 are connected to each other by a first link 41, a second link 42, and a third link 43, as shown in FIGS.

  That is, the first link 41 is formed in a “U” cross section as shown in FIGS. 7 and 14 in particular. The base end portions (lower end portions in FIG. 8) of both side plate portions of the first link 41 are opposed to the front end portions of the side plate portions 28a and 28b of the connecting member 28 in the vertical direction (left and right direction in FIG. 8). The inner surfaces of the base end portions of the side plate portions of the first link 41 are in contact with the outer surfaces of the front end portions of the side plate portions 28 a and 28 b of the connecting member 28. Moreover, the base end portions of the both side plate portions of the first link 41 are rotatably connected to the front end portions (left end portions in FIG. 2) of the both side plate portions 28a and 28b of the connecting member 28 via a shaft 51 extending vertically. ing.

  The second link 42 has a flat plate shape, and two are used. The two second links 42 and 42 are respectively arranged on the outer side (upper side and lower side) of the base end portion of the both side plate portions of the first link 41. The respective base end portions of the second links 42 and 42 are rotatably connected to the front end portions of the side plate portions 28a and 28b of the connecting member 28 via a shaft 52 extending vertically. Moreover, the base end portions of the second links 42 and 42 are in contact with the outer surfaces of the side plate portions 28a and 28b of the connecting member 28 via disc-shaped spacers 44 and 44, respectively. The thickness of the spacer 44 is set to be equal to or slightly thicker than the thickness of the side plate portion of the first link 41. Therefore, when the first and second links 41 and 42 rotate around the shafts 51 and 52, the first and second links 41 and 42 do not collide with each other.

  The third link 43 has a flat plate shape, and only one is used. Of course, you may use two. The base end portion of the third link 43 is disposed so as to be in contact with the inner surface of the front end portion of one side plate portion 28 a of the connecting member 28. You may arrange | position the 3rd link 43 so that the inner surface of the other side-plate part 28b may be contact | connected. When two third links 43 are used, each third link 43 is disposed so as to be in contact with the inner surfaces of both side plate portions 28 a and 28 b of the connecting member 28. A base end portion of the third link 43 is rotatably connected to one side plate portion 28a of the connecting member 28 via a shaft 53 extending vertically. The third link 43 is spaced downward from the upper side plate portion of the first link 41 by the thickness of the upper side plate portion 28 a of the connecting member 28. Therefore, when the first and third links 41 and 43 rotate around the shafts 51 and 53, the first and third links 42 do not interfere with each other. Of course, the second and third links 42 and 43 do not interfere with each other.

  The front ends of both side plate portions of the first link 41 are inserted between the inner surfaces of the pair of arc portions 32d and 32d (opposite surfaces of the arc portions 32d and 32d) of the support portion 32, respectively. Yes. And each front-end | tip part of the both-sides board part of the 1st link 41 is rotatably connected with the pair of circular arc parts 32d and 32d via the axis | shaft 61 extended in an up-down direction.

  The distal ends of the pair of second links 42 and 42 are disposed so as to be in contact with the outer surfaces of the pair of arc portions 32d and 32d of the support portion 32, respectively, and a shaft 62 extending vertically to the pair of arc portions 32d and 32d. It is connected via a rotation.

  The distal end portion of the third link 43 is inserted between the protruding plate portion 31b on the lower side of the base portion 31 and the cam plate portion 32b on the lower side of the support portion 32, and is inserted into the protruding plate portion 31b and the cam plate portion 32b. The shaft 63 is rotatably connected.

  The shafts 51 to 53 and the shafts 61 to 63 are arranged such that each axis (rotation center) is located at the apex of a triangle when viewed from the longitudinal direction (vertical direction) thereof. Moreover, they have the following relationship. That is, the distance between the centers of the shafts 51 and 61, the distance between the centers of the shafts 52 and 62, and the distance between the centers of the shafts 53 and 63 are set to be equal to each other. Moreover, the distance between the centers of the shafts 51 and 52 and the distance between the centers of the shafts 61 and 62 are set to be equal to each other, the distance between the centers of the shafts 52 and 53 and the distance between the centers of the shafts 62 and 63 are set to be equal to each other. , 51 and the distance between the centers of the shafts 63, 61 are set to be equal to each other. As a result, the connecting member 28, the support portion 32 (door side unit 30), the first link 41, the second link 42, and the third link 43 constitute a parallel link mechanism. Therefore, in the storage device 1, the support portion 32 moves in parallel with respect to the connecting member 28, and as a result, the door 3 moves in parallel with the housing 2.

  The first link 41 of the slide hinge 10 arranged on the upper side of the housing 2 and the first link 41 of the slide hinge 10 arranged on the lower side are connected to each other so that they rotate in synchronization with each other. The plates 45 are connected. Thereby, the two slide hinges 10 and 10 are reinforced mutually.

  The door 3 translates between a closed position shown in FIGS. 1 and 2 and an open position shown in FIGS. 5 and 6. When the door 3 is located at the closed position, the back surface 3 a hits the front surface 2 a of the housing 2 and closes the entire opening of the housing 2. On the other hand, when positioned at the open position, the entire door 3 is positioned on the left side (upward in FIG. 6) of the opening of the housing 2 and opens the entire opening. As is clear from FIG. 6, the open position of the door 3 is defined by the first link 41 abutting against the shaft 53. The open position of the door 3 is defined by any one of the first to third links 41 to 43 being a shaft other than the shaft that rotatably supports the first link to the shaft 51 to 53. Is also possible.

  The door 3 is designed such that when the door 3 is in the closed position, the back surface 3a is in contact with the front surface 2a of the housing 2 over the entire circumference, but one end or the other end of the back surface 3a in the left-right direction. May contact the front surface 2a of the housing 2 and the other end or one end may be separated from the front surface 2a of the housing 2 in the front-rear direction. In such a case, the connecting member 28 is rotated in the horizontal direction by the housing side adjusting mechanism, or the base 31 is rotated in the horizontal direction with respect to the support portion 32 by the door side adjusting mechanism, or by both adjusting mechanisms. By rotating both the connecting member 28 and the base portion 31 in the horizontal direction, the door 3 can be appropriately rotated in the horizontal direction, and the rear surface 3a of the door 3 can be brought into contact with the front surface 2a of the housing 2 over the entire circumference. . In particular, when adjusting with the door-side adjustment mechanism, even if various articles are accommodated in the casing 2, the posture of the door 3 can be adjusted without taking out the stored articles from the casing 2. it can. Further, when the connecting member 28 is rotated in the horizontal direction by the housing side adjusting mechanism, the front end portion of the connecting member 28 moves in the left-right direction by an amount corresponding to the rotation amount. Thereafter, by adjusting the posture of the door 3 by the door-side adjusting mechanism, not only can the posture of the door 3 be adjusted, but also the position of the door 3 in the left-right direction can be adjusted.

  As shown in FIGS. 2, 4, and 6, two of the shafts 51, 52, 53 are disposed behind the front surface 2 a of the housing 2. The remaining shaft 53 is disposed in front of the front surface 2a. When arranged in this way, the first, second and third when the door 3 is positioned at the closed position, compared to the case where the three shafts 51, 52, 53 are arranged behind the front surface 2a. The positions of the links 41, 42, and 43 in the front-rear direction can be positioned forward by the distance that the shaft 53 is spaced forward from the front surface 2a. Therefore, the space that can be effectively used inside the housing 2 can be widened.

  By the way, when the shaft 53 is disposed in front of the front surface 2a, as shown in FIG. 2, when the door 3 is rotated to the closed position, not only the shaft 53 but also the front end portion of the connecting member 28 that supports the shaft 53 is the door. 3 hits the back surface 3a. In order to prevent such inconvenience, a recess 3b is formed on the back surface 3a of the door 3. The recess 3b has such a size (depth and width) that the shaft 53 protruding forward from the front surface 2a and the front end of the connecting member 28 can be accommodated when the door 3 is rotated to the closed position and in the vicinity thereof. )have. Therefore, the portion positioned forward from the front surface 2 a of the shaft 53 and the connecting member 28 does not hit the rear surface 3 a of the door 3.

  Instead of disposing the shaft 53 in front of the front surface 2a, one of the shafts 51 and 52 may be disposed in front of the front surface 2a and the shaft 53 may be disposed in the rear of the front surface 2a. Alternatively, any two of the three shafts 51, 52, and 53 may be disposed in front of the front surface 2a, and the remaining one may be disposed behind the front surface 2a. Further, all of the three shafts 51, 52, 53 may be arranged in front of the front surface 2a. However, if all the shafts 51, 52, 53 are arranged in front of the front surface 2 a, the portion of the connecting member 28 that supports the shafts 51, 52, 53 is greatly separated from the substrate 21 that supports the connecting member 28. As a result, the supporting strength of the connecting member 28 for the first to third links 41, 42, 43 is reduced. Therefore, with respect to the three shafts 51, 52, 53, one or two are arranged in front of the front surface 2a without arranging them all in front of the front surface 2a, and the remaining two or one are arranged in front of the front surface 2a. It is desirable to arrange it behind.

  In addition to the above configuration, the storage device 1 further includes a rotation urging means 70 and a damper device 80. The rotation urging means 70 is a position where the door 3 is separated by a predetermined distance (for example, a distance corresponding to approximately 20 ° in terms of the rotation angle of the first link 41) from the open position to the closed position (for example, a distance corresponding to approximately 20 °). (Hereinafter referred to as an urging start position), the first link 41 is rotationally urged toward the closed position to move the door 3 to the closed position and to maintain the closed position. is there. On the other hand, the damper device 80 suppresses the moving speed of the door 3 toward the closed position by the rotation biasing means at a low speed, thereby reducing the impact at the time of the collision of the door 3 with the housing 2.

  The rotation urging means 70 will be described. As shown in FIGS. 10 to 12 and 21 to 23, the rotation urging means 70 has an arm 71. The arm 71 is disposed between the lower side plate portion of the first link 41 and the third link 43 in the vertical direction in parallel therewith. The distal end portion of the arm 71 (the end portion on the door side unit 30 side) is inserted between the cam plate portions 32b and 32b of the support portion 32, and can be rotated by the cam plate portions 32b and 32b via the shaft 63. It is connected. On the other hand, a guide groove 71 a is formed in the base end portion of the arm 71 (the end portion on the base end side of the first link 41). A shaft 72 fixed to the first link 41 is inserted into the guide groove 71a so as to be movable in the longitudinal direction of the guide groove 71a with the axis line directed vertically. Accordingly, when the first link 41 rotates as the door 3 moves, the arm 71 rotates around the shaft 63 following the rotation. Moreover, as the arm 71 rotates, the shaft 72 moves in the longitudinal direction in the guide groove 71a. In this case, when the first link 41 rotates so that the door 3 moves to the closed position side, the shaft 72 moves from the proximal end side of the first link 41 toward the distal end side in the guide groove 71a. When the first link 41 rotates so as to move toward the open position, it moves in the guide groove 71a from the distal end side of the first link 41 toward the proximal end side.

  On each outer peripheral surface of the pair of cam plate portions 32b of the support portion 32, an arc surface 32e centering on the axis of the shaft 63 and a cam surface (cam portion) 32f following one end of the arc surface 32e are formed. ing. On the other hand, at the tip of the arm 71, the support shaft 73 whose axis is directed in the vertical direction can move in the direction approaching and separating from the outer peripheral surface of the cam plate portion 32b (the radial direction of the circle centering on the shaft 63). And rotatably supported. At both ends of the support shaft 73, rollers (movable members) 74 are provided. An urging member 75 such as a coil spring is provided in the arm 71 with its longitudinal direction directed in the longitudinal direction of the arm 71. The urging member 75 urges the rollers 74 and 74 through the support shaft 73 and presses them against the outer peripheral surfaces of the cam plates 32b and 32b. In this case, the roller 74 is pressed against the cam surface 32f when the door 3 is positioned between the closed position and the bias start position, and the door 3 is positioned between the bias start position and the open position. It is arranged so as to be pressed against the circular arc surface 32e.

  When the roller 74 is pressed against the cam surface 32f, the urging force of the urging member 75 is converted into a rotational urging force by the cam surface 32f. With this rotational biasing force, the arm 71 is rotationally biased in one direction around the shaft 63, and the first link 41 is rotationally biased in one direction around the shaft 51. The door 3 is moved to the closed position and maintained at the closed position by the rotation biasing force that biases the first link 41 in one direction. When the rotation urging means 70 is configured as described above, the arm 71 is arranged in parallel with the first link 41, and the urging member 75 is armed with its longitudinal direction directed to the longitudinal direction of the arm 71. Since it is provided in 71, the rotation biasing means 70 can be downsized, and the slide hinge 10 can be downsized.

  As the rotation urging means, instead of the rotation urging means 70 having another configuration, one having another structure may be adopted. For example, the contact member may be provided on the arm 71 so as to be movable and non-rotatable, and the contact member may be pressed against the cam surface 32f. Further, the first link 41 may be directly urged to rotate by a torsion coil spring or the like. When the door 3 is moved from the closed position to the urging start position, the door 3 is moved to the open position side against the rotational urging force of the rotation urging means 70.

  When the roller 74 is pressed against the arc surface 32e, the urging force of the urging member 75 is directed toward the center of curvature of the arc surface 32e. Therefore, the arm 71 is not rotationally urged by the urging member 75, and the arm 71 only rotates following the rotation of the first link 41, and between the urging start position and the open position. You can stop at any position. Therefore, the door 3 can also be stopped at an arbitrary position between the bias start position and the open position. When the second cam surface is formed following the other end of the circular arc surface 32e, and the door is positioned between the open position and the second bias start position separated from the open position by a predetermined distance toward the closed position. Further, the urging force of the urging member 75 is converted into a rotation urging force by the second cam surface, and the arm 71 and the first arm 41 are urged to rotate in the other direction by the rotation urging force, and the door 3 is moved to the open position. And may be maintained in the open position.

  In the arm 71, a damper device 80 is built in such a state that its longitudinal direction is directed to the longitudinal direction of the arm 71. The damper device 80 includes a main body portion 81 and a movable rod 82 provided on the main body portion 81 so as to be relatively movable. The main body 81 is provided in a fixed position on the arm 71. The movable rod 82 can be moved at a high speed in a direction protruding from the main body 81 by a damper mechanism built in the main body 81, but is prevented from moving at a high speed in a direction retracting into the main body 81. It is possible to move only with. Moreover, when the movable rod 82 is in a natural state where no external force acts on the movable rod 82, the movable rod 82 is urged in a direction protruding from the main body 81 by a biasing means such as a coil spring built in the main body 81. It is located at the initial position.

  When the door 3 moves from the open position side to the closed position side and reaches the urging start position, the urging member 75 rotates the door to the closed position side. When the door 3 is rotated by a predetermined angle, for example, 10 ° beyond the bias start position, the shaft 72 abuts against the distal end surface of the movable rod 82. Therefore, thereafter, the moving speed of the shaft 72 toward the distal end side of the arm 71 is suppressed to a low speed. As a result, the rotational speed of the arm 71 and the first link 41 to the closed position side is suppressed to a low speed. The moving speed toward the closed position is reduced to a low speed. Therefore, the door 3 comes into contact with the housing 2 at a low speed, and can reduce the impact at the time of collision.

  In the storage device 1 having the above-described configuration, it is assumed that the door 3 is currently in the closed position. When the door 3 reaches the half-open position shown in FIGS. 3 and 4, and the first to third links 41, 42, and 43 rotate about 90 ° accordingly, the door 3 protrudes most forward from the front surface 2 a of the housing 2. To do. The amount of protrusion of the door 3 at this time is the length of the first to third links 41, 42, 43 (the distance between the centers), and these lengths are approximately the length of the door 3 in the left-right direction. It is half. Therefore, in this storage device 1, the door 3 requires a space in front of the housing 2 as compared with a conventional storage device in which the other side portion rotates 90 degrees forward about one side portion in the left-right direction. Can be reduced. In other words, even if the space existing in front of the housing 2 is narrow, the door 3 can be opened sufficiently.

  As shown in FIG. 6, when the first link 41 is viewed from the axial direction (vertical direction) of the shafts 51 and 61 that are the centers of rotation, the first link 41 has an intermediate portion (an intermediate portion between the shafts 51 and 61). ) Is also bent at a portion closer to the base end side. The bent portion of the first link 41 is positioned forward with respect to the straight line connecting the shafts 51 and 61 when the door 3 is moved to the open position. The second and third links 42 and 43 are similarly bent. When the first, second, and third links 41, 42, 43 are bent in this manner, when the door 3 is moved to the open position, the first, second, and third links 41, 42, 43 are encased. Interference with the edge of the opening of the front surface 2a of the body 2 can be prevented. In other words, the first, second, and third links 41, 42, and 43 can be greatly rotated toward the open position by the amount of bending thereof, and thereby the door 3 can be greatly opened. In this embodiment, since the front surface portion of the housing 2 is open, when the door 3 is moved to the open position, the bent portions of the first to third links 41, 42, 43 connect the center line. The first to third links 41, 42, 43 are bent so as to be positioned forward, but when the side surface of the housing 2 is open, the door 3 is moved to the open position. At the time, the links 41 to 43 are bent so that the bent portions of the links 41 to 43 are located on the left and right sides with respect to the straight line connecting the center lines, so that the links 41 to 43 are also located outside the casing 2. When the door 3 is moved to the open position, the links 41 to 43 are positioned so that the bent portions of the links 41 to 43 are located above the straight line connecting the center lines. 43 is bent.

  Further, three links 41, 42, 43 are used as links for connecting the connecting member 28 and the support portion 32, and the shafts 51, 52, 53; 61, 62, 63, which are the rotation centers of the links 41 to 43, are used. Since it is arranged so as to be located at the apex of the triangle, the door 3 is rotated around a line perpendicular to the door 3 even when the door 3 is located between the closed position and the open position. Even if a moment acts, the moment can be supported with sufficient strength. That is, if only two of the first to third links 41 to 43 are used, depending on the position of the door 3 when viewed from the longitudinal direction of the rotation center line of the two links, Two links can overlap each other. In such a situation, when the rotational moment as described above acts on the door 3, the two links cannot exhibit sufficient strength against the rotational moment. However, in the slide hinge 10 used in the storage device 1, the rotation centers of the three links 41 to 43 are arranged at the vertices of the triangles, so that the door 3 moves to any position. Even so, the three links 41 to 43 do not overlap each other in the rotation center line direction, and at least one link is separated from the other two links in a direction perpendicular to the rotation center line. Yes. Therefore, even if the above rotational moment acts on the door 3, the three links 41-43 can support the rotational moment with sufficient strength.

In addition, this invention is not limited to said embodiment, In the range which does not deviate from the summary, it can change suitably.
For example, in the above embodiment, the first, second and third three links 41, 42 and 43 are used, but only two of the three links 41 to 43 are used. It may be used.

It is a perspective view which shows the principal part of one Embodiment of the accommodating apparatus which concerns on this invention in the state which located the door in the closed position. It is a plane sectional view showing the important section of the embodiment in the state where the door is located at the closed position. It is a perspective view which shows the principal part of the embodiment in the state which located the door in the intermediate position between a closed position and an open position. It is a plane sectional view showing the important section of the embodiment in the state where the door is located at an intermediate position between the closed position and the open position. It is a perspective view which shows the principal part of the embodiment in the state which located the door in the open position. It is a plane sectional view showing the important section of the embodiment in the state where the door is located in the open position. It is a perspective view which shows the slide hinge used in the embodiment in the state when a door is located in a closed position. It is the perspective view which looked at the same slide hinge from the direction different from FIG. It is a perspective view which shows the same slide hinge in the state when a door is located in an open position. It is a see-through | perspective top view which shows the rotation urging | biasing mechanism and damper mechanism of the same slide hinge in the state when a door is located in a closed position. It is a see-through | perspective plan view which shows the rotation urging | biasing mechanism and damper mechanism of the same slide hinge in the state when a door is located in an intermediate position. It is a see-through | perspective plan view which shows the rotation urging | biasing mechanism and damper mechanism of the same slide hinge in the state when a door is located in an open position. It is a disassembled perspective view which shows the slide hinge. It is a disassembled perspective view which shows the slide hinge in the state which assembled the housing | casing side unit. It is a perspective view which shows the housing | casing side unit of the slide hinge. It is a top view of the housing | casing side unit. It is sectional drawing which follows the XX line of FIG. It is a disassembled perspective view of the housing side unit. It is a top view which shows the door side unit of the slide hinge. FIG. 20 is a plan view showing the door-side unit in a state where the posture of the support portion with respect to the base portion is different from the posture shown in FIG. 19. It is a top view which shows the door side unit of the slide hinge, and its vicinity. FIG. 22 is a view on arrow X in FIG. 21. It is sectional drawing which follows the YY line of FIG.

Explanation of symbols

B2 bolt (casing side adjustment mechanism)
DESCRIPTION OF SYMBOLS 1 Accommodating apparatus 2 Housing | casing 3 Door 10 Slide hinge 21 Board | substrate (housing | casing side attachment member)
23a Screw hole (housing side adjustment mechanism)
28 Connecting member 28a Side plate (mounting plate)
28b Side plate (mounting plate)
30 Door side unit (door side mounting member)
31 base 32 support 32c screw hole (door side adjustment mechanism)
33 Adjustment screw (door-side adjustment mechanism)
41 First link 42 Second link 43 Third link 44 Spacer 51 Axis (rotation center)
52 axes (rotation center)
53 axes (rotation center)
61 axis (rotation center)
62 axis (rotation center)
63 axis (center of rotation)
70 Rotating bias means 71 Arm 74 Roller (movable member)
75 Biasing member

Claims (12)

A housing-side mounting member that is attached to the housing, a connecting member that is detachably attached to the housing-side mounting member, a door-side mounting member that is attached to the door, and each base end portion that is rotatably attached to the connecting member A first link, a second link, and a third link that are rotatably attached to the door-side mounting member, and the connecting member, the door-side mounting member, the first link, and the second link. In a slide hinge in which a parallel link mechanism is configured by the link and the third link, and the door side mounting member is movable between a closed position and an open position.
The rotation center line of the first, second and third links with respect to the connecting member is arranged so as to be located at the apex of the triangle when viewed from the longitudinal direction thereof,
The first, second, and third links are bent at their respective intermediate portions, and the bent portions of the first, second, and third links are connected to the rotation center line and the distal end portion of the respective base end portions. Positioned on the same side of the straight line connecting the rotation center line,
Rotation center lines of the first, second, and third links with respect to the connecting member are first, second, and third rotation center lines, respectively, and the door-side mounting members of the first, second, and third links are used. Are the fourth, fifth and sixth rotation center lines, respectively, and when the door-side mounting member is located at the closed position, the first rotation center line and the fourth rotation center line In the direction connecting the first rotation center line and the door-side mounting member, the first rotation center line is closest to the door-side mounting member, is orthogonal to the direction connecting the first rotation center line and the fourth rotation center line, and is opposite to the bent portion. In the direction toward the side, the first, second, and third rotation center lines are arranged so that the third rotation center line is positioned forward.
The fifth rotation center line moves the fourth and sixth rotation center lines in the rotation direction of the first to third links until the door side mounting member moves in parallel from the closed position to the open position. A slide hinge characterized by being overtaken and capable of overtaking the fourth rotation center line in the rotation direction of the first to third links . In the direction connecting the first rotation center line and the fourth rotation center line, the third rotation center line is farthest from the door-side mounting member, and the first rotation center line and the fourth rotation center line are The first, second, and third rotation center lines are arranged so that the second rotation center line is located at the rearmost side in a direction that is orthogonal to the direction connecting the two and toward the opposite side of the bent portion. The slide hinge according to claim 1, wherein the slide hinge is provided. The connecting member has a mounting plate portion to which the base end portions of the first to third links are rotatably mounted, and two of the first to third links are connected to the mounting plate portion on one side thereof. 3. The slide hinge according to claim 1 , wherein the slide hinge is rotatably connected on the other side and the other link is rotatably connected to the mounting plate portion on the other side. 4. The first link has two side plate portions facing each other in the direction in which the rotation center line extends, and a connecting plate portion that connects one side portions of the two side plate portions, and is formed in a “U” cross section. And
The first link is arranged so that the mounting plate portion enters therein,
The inner surface of one side plate portion of the two side plate portions of the first link is disposed on the one side of the mounting plate portion, and the one side plate portion is rotatably connected to the mounting plate portion. ,
The third link is disposed inside the first link;
So that it can tip of the connecting plate portion of the first link is located forward in the rotational direction of the first link at the time of translation to the open position side of the door side attachment member from the distal end of the third link The distal end portion of the side plate portion on which the fourth rotation center line of the first link is provided is disposed closer to the distal end side than the distal end of the connection plate portion, whereby the fourth rotation center line is the sixth rotation center. The slide hinge according to claim 3 , wherein the slide hinge can be passed. The door-side attachment member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the tip portions of the first to third links. A door-side adjusting mechanism is provided between the supporting portion and the supporting portion for adjusting the posture of the supporting portion about an axis parallel to the rotation center line of the first to third links. Item 5. The slide hinge according to any one of Items 1 to 4. 6. The slide according to claim 5, wherein a rotation center line of the first to third links with respect to the support portion is used as the axis of the door-side adjustment mechanism that adjusts a posture of the support portion. Hinge. A housing having an opening, a door that opens and closes the opening of the housing, and a parallel movement of the door between the closed position where the opening is closed and the open position where the opening is opened A slide hinge that is detachably connected, and the slide hinge is attached to an inner surface of the housing, a connecting member detachably attached to the housing side mounting member, and attached to the rear surface of the door was the door side attachment member, and each of the base end portion rotatably mounted to said connecting member, first, second and third links, each of the distal end portion is rotatably attached to the door side attachment member A parallel link mechanism is configured by the connecting member, the door-side mounting member, the first link, the second link, and the third link, and the door is translated between a closed position and an open position. To containment devices that are possible Stomach,
The rotation center line of the first, second and third links with respect to the connecting member is arranged so as to be located at the apex of the triangle when viewed from the longitudinal direction thereof,
When the first, second, and third links are bent at their intermediate portions, and the door is located at the open position, the bent portions of the first, second, and third links are It is located on the front side in the direction from the back side of the housing to the opening side with respect to the straight line connecting the rotation center line of each base end part and the rotation center line of the tip part,
Rotation center lines of the first, second, and third links with respect to the connecting member are first, second, and third rotation center lines, respectively, and the door-side mounting members of the first, second, and third links are used. Rotation center lines with respect to, respectively, are fourth, fifth and sixth rotation center lines, and when the door is in the closed position, the direction connecting the first rotation center line and the fourth rotation center line , The first rotation center line is closest to the door side mounting member, is orthogonal to the direction connecting the first rotation center line and the fourth rotation center line, and from the back side of the housing In the direction toward the opening, the first, second, and third rotation center lines are arranged so that the third rotation center line is positioned forward, and the door is moved from the closed position to the open position. The fifth rotation center line moves to the fourth and sixth points while Wherein the rolling center line passing the rotational direction of the first to third link, and the fourth rotating center line is capable overtake the sixth rotation axis in the rotation direction of the first to third link A storage device. In the direction connecting the first rotation center line and the fourth rotation center line, the third rotation center line is farthest from the door-side mounting member, and the first rotation center line and the fourth rotation center line are In the direction perpendicular to the direction connecting the two and from the back side of the housing to the opening side, the first, second, and third are arranged so that the second rotation center line is located most rearward. The accommodation device according to claim 7 , wherein a rotation center line is arranged. The connecting member has a mounting plate portion to which the base end portions of the first to third links are rotatably mounted, and two of the first to third links are connected to the mounting plate portion on one side thereof. The receiving device according to claim 7 or 8, wherein the housing device is rotatably connected to the other side, and the other one link is rotatably connected to the mounting plate portion on the other side. The first link has two side plate portions facing each other in the direction in which the rotation center line extends, and a connecting plate portion that connects one side portions of the two side plate portions, and is formed in a “U” cross section. And
The first link is arranged so that the mounting plate portion enters therein,
The inner surface of one side plate portion of the two side plate portions of the first link is disposed on the one side of the mounting plate portion, and the one side plate portion is rotatably connected to the mounting plate portion. ,
The third link is disposed inside the first link;
The first link so that the distal end portion of the connecting plate portion of the first link can be positioned forward in the rotational direction of the first link during parallel movement from the distal end portion of the third link to the open position side of the door. The distal end portion of the side plate portion on which the fourth rotation center line of the link is provided is disposed on the distal end side with respect to the distal end of the connection plate portion, whereby the fourth rotation center line passes the sixth rotation center line. The accommodation device according to claim 9 , wherein: The door-side attachment member has a base portion attached to the door, and a support portion attached to the base portion and rotatably attached to the tip portions of the first to third links. A door-side adjusting mechanism is provided between the supporting portion and the supporting portion for adjusting the posture of the supporting portion about an axis parallel to the rotation center line of the first to third links. Item 10. The storage device according to any one of Items 7 to 10 . The accommodation center according to claim 11 , wherein a rotation center line of the first to third links with respect to the support portion is used as the axis of the door-side adjustment mechanism that adjusts a posture of the support portion. apparatus.

Images